China manufacturing industries are full of strong and consistent exporters. We are here to bring together China factories that supply manufacturing systems and machinery that are used by processing industries including but not limited to: flotation machine, mining machine, flotation cell. Here we are going to show you some of the process equipments for sale that featured by our reliable suppliers and manufacturers, such as Zinc Ore Flotation Machine. We will do everything we can just to keep every buyer updated with this highly competitive industry & factory and its latest trends. Whether you are for group or individual sourcing, we will provide you with the latest technology and the comprehensive data of Chinese suppliers like Zinc Ore Flotation Machine factory list to enhance your sourcing performance in the business line of manufacturing & processing machinery.
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China manufacturing industries are full of strong and consistent exporters. We are here to bring together China factories that supply manufacturing systems and machinery that are used by processing industries including but not limited to: flotation machine, flotation cell, mining machine. Here we are going to show you some of the process equipments for sale that featured by our reliable suppliers and manufacturers, such as Mining Flotation Machine. We will do everything we can just to keep every buyer updated with this highly competitive industry & factory and its latest trends. Whether you are for group or individual sourcing, we will provide you with the latest technology and the comprehensive data of Chinese suppliers like Mining Flotation Machine factory list to enhance your sourcing performance in the business line of manufacturing & processing machinery.
China manufacturing industries are full of strong and consistent exporters. We are here to bring together China factories that supply manufacturing systems and machinery that are used by processing industries including but not limited to: flotation machine, mining machine, flotation equipment. Here we are going to show you some of the process equipments for sale that featured by our reliable suppliers and manufacturers, such as Flotation Cell. We will do everything we can just to keep every buyer updated with this highly competitive industry & factory and its latest trends. Whether you are for group or individual sourcing, we will provide you with the latest technology and the comprehensive data of Chinese suppliers like Flotation Cell factory list to enhance your sourcing performance in the business line of manufacturing & processing machinery.
La Norma lead zinc mine, located in Kare Town, Chamdo County, Tibet Autonomous Region, is a 600 thousand t/a plant EPC project undertook by Shandong Xinhai Mining Technology & Equipment Inc. The whole plant is composed of four workshops including crushing & screening workshop, grinding workshop, flotation workshop and concentrate dehydration workshop.
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The flotation processand related flotation cells are widely used for treating metallic and nonmetallic ores and in addition, it is receiving an ever widening application in other industries. A greater tonnage of ore is treated by flotation than by any other single process. Practically all the metallic minerals are being recovered by the flotation process and the range of non-metallics successfully handled is steadily being enlarged. In recent years the art of flotation has been successfully applied in other than the mining industry, such as flotation of wheat, and other industrial applications. As flotation reagents are further developed, the application of flotation will be more widespread.
The Sub-A Flotation Cellhas been applied to all types of flotation problems and these machines have continuously demonstrated their superiority. They have given very successful results through a wide range of problems, and their supremacy is fully proven by world-wide acceptance and application.The feature of the Sub-A is the design. The Sub-A incorporates all of the basic principles and requirements of the flotation process and these, coupled with the special and exclusive wear features, make it the ideal Flotation Cell.
Sub-A Flotation Cells have been developed over the intervening years since 1927 until today there are over 26,000 cells in operation. Flotation cells are standard equipment for an ever widening range of metallurgical and industrial problems. They are being used in plants of all types and sizes and they are giving excellent results at minimum cost at tonnages of a few tons up to 35,000 tons per 24 hours.
To take care of the wide range of problems confronting the flotation process, the Sub-As are built in a wide and flexible range of commercial sizes, from the No. 8 through the No. 12, No. 15, No. 18, No. 18 Special, No. 21, No. 21 Deep, No. 24 and the No. 30.
There is a particular size cell for every problem and tonnage, with each cellhaving incorporated into itsdesign features to take care of any condition. This is the basis on whichSub-A Cells have been designed. Standard cells are as follows:
The construction of the Sub-A Standard Flotation Cell is with double welded steel tank, alloy iron cell side liners, rubber bonded to steel bottom liners, impellers and diffuser wearing plates of molded rubber or alloy iron, individual cell pulp level control, rubber protected shafts and rubber sand relief bushings. To the standard cells the supercharging principle can be quickly adapted as all recent cells are furnished with automatic air seal and air bonnet to which low pressure air is easily connected. Variations from the standard cellallow the pulp to bypass through convenient ports which can be opened or closed while the unit is operating. This feature makes the Sub-A either the exclusive positive circulation unit or an open type cell.
Sub-A Flotation Cells are built with special design for work in acid and corrosive circuits. The construction of this typecellis similar to the standardSub-A except that the parts in contact with the pulp are of special materials and the tank itself is of wood construction. There is also a variation in design to take care of the special conditions usually associated with acid circuits and for convenience the acid-proof cells are built in 2-cell units.
The Sub-A Grain Peeling Flotation Cell is a special adaptation of the Sub-A for the peeling of wheat and other grains by flotation. The peeling cellis a continuous, straight-sided tank without spitzkasten overflow. This unit with its special features, loosens the outer brans. From the peeling unit feed passes to the Sub-A special grain Flotation Cell which is similar in design to the standard Sub-A, except for the special construction to meet the requirements of this type flotation. These peeling-Flotation Cells are built for a capacity of approximately 150 bushels per hour. The number of cells per unit and the number of units required for an installation is dependent upon the feed rate required and also upon the type of grain to be peeled.
The widespread success of the Sub-A Flotation Cell is attributed to the basic qualities of the design of this type Flotation Cell. Successful metallurgy results from the distinctive gravity flow feature, which assures positive circulation of all pulp fractions with reagents from cell to cell and hence results in high efficiency.
The pulp flows by gravity into each cell through the feed pipe, from which it drops directly on top of the rotating impeller below the stationary hood. As the pulp cascades over the impeller blades it is thrown outward and upward from the impeller and diffuser wearing plate by the centrifugal action of the impeller. The pulp is kept in complete circulation by the impeller action and as the flotation reaction takes place, the pulp is passed from cell to cell. Pulp overflows to each succeeding cell over an adjustable weir gate in the partition. This gate gives accurate control of pulp level as the pulp passes through the machine. To take care of coarse oversize each cell has a rubber sand relief opening in the partition weir casting which feeds oversize direct to the impeller of the next cell without short circuiting. Circulation within each cell itself and return of middlings is by means of adjustable openings in the hood above each impeller, although for normal operation these are kept closed, except for middling return.
Circulation in Sub-A Flotation cells is highly efficient due to the distinctive gravity flow feature. This method of pulp circulation assures the positive circulation of all pulp fractions with resultant maximum treatment of each and every particle. It is an established fact that the mechanical method of circulating material is the most positive and economical, particularly where the impelleris below the pulp. A Flotation Cell must not only be able to circulate coarse material (encountered in practically every mill circuit) but also must re-circulate and retreat the difficult middling products.
An alternate pulp flow is obtained from cell to cell by the side ports in the partitions. The ports are adjustable so that a portion of the pulp can pass from cell to cell through these ports and consequently bypass the impeller and weir overflow.
It is not essential to have each individual cell with separate weir gate control; however, for most installations this is recommended. An alternate arrangement is with gate control every two to four cells for pulp level control, and free pulp passage from cell to cell, by means of the ports, as well as cell to cell overflow. The arrangement is actually a grouping without sacrificing the positive circulation feature.
The passage of pulp through the cell and the action created in the impeller zone draws air down the stationary standpipe and from the partition along the feed pipe. This positive suction of air gives the ideal condition for average flotation and the action in the impeller zone thoroughly mixes the air with the pulp and reagents. As this action proceeds, a thoroughly aerated live pulp is produced and furthermore, as this mixture is ground together by the impeller action, the pulp is intimately diffused with exceedingly small air bubbles which support the largest number of mineral particles.
For particular problems the aeration in the Sub-A can be augmented by the application of Supercharging, whereby fully controlled air under low pressure is diffused into the pulp. This feature is accomplished by the introduction of air from a blower or turbo-compressor through the standpipe connection into the aerating zone where it is premixed with the pulp by the impeller action. This supercharging of the pulp creates a highly aerated condition which is maintained by the automatic seal in the cell partition. Supercharging is of particular advantage for low ratio of concentration and slow-floating ores.
Throttling of air in the Sub-A Flotation Cell is of benefit when suppressed flotation is required. This is accomplished by cutting off or decreasing the size of air inlet on the standpipe. Suppressed flotation finds its chief use in grain flotation, certain non-metallics and occasionally in cleaner or recleaner operations.
The aeration and mixing of the pulp with reagents all takes place in the lower zone of the cell. This thorough mixing, which is below the stationary hood, is to a considerable degree responsible for the metallurgical efficiency of the cell.
Supercharging Sub-A Flotation Cells by increasing the sub-aeration is obtained with a small volume of air at low pressure. The air bonnet and automatic air seal are integral parts of all standard Sub-A Cells; hence, to increase the aeration all that is required is a connection from the air bonnet to a source of air supply.
The aerated pulp, after leaving the mixing zone, passes upward by displacement to the central section of the cell. This is a zone of quiet and is free from cross currents and agitation. In this zone, the mineral-laden air bubbles separate from the worthless gangue and pass upward to the froth column without dropping their load, due to the quiescent condition. The gangue material follows the pulp flow and is rejected at the discharge end of the cell.
It is in the separation zone that effective aeration is essential and this is assured in the Sub-A as the air is broken up into minute bubbles. These finely diffused bubbles are essential for carrying a maximum load of mineral.
The mineral-laden bubbles move from the separation zone to the pulp level and are carried forward to the overflow lip by the crowding action of succeeding bubbles. To facilitate the quick removal of mineral-laden froth, Flotation Cellsare equipped with froth paddles. Froth removal can be further facilitated by the use of crowding panels which create a positive movement of froth to the overflow.
Concentrates produced by Sub-As are noted for their distinctive high grade and selectiveness. The spitzkasten built into Sub-A cells is partially responsible as it allows a quiescent zone just before froth removal in order that middling fractions may fall back into the pulp flow. Cells are built with single overflow as standard, but double overflow can be supplied.
These are several of the distinctive advantages obtained with the use of Sub-A Flotation Cells which are found in no other Flotation Cell. The combination of these several advantages is necessary to obtain successful flotation results.
Positive circulation of all pulp fractions from cell to cell is assured by the distinctive gravity flow principle of the Sub-A. No short circuiting can occur through the cell; hence, every particle is subject to positive treatment. In instances where successful metallurgy demands the handling of a dense pulp containing an unusually large percentage of coarse material, the sand relief opening aids in the celloperation. This opening removes from the lower part of the cell the coarse fractions and passes them through the feed pipe to the impeller of each succeeding cell. The sand relief openings assure the passage of slow floating coarse mineral to each impeller and therefore it is subject to the intensive mixing, aeration and optimum flotation condition of each successive cell. The finer pulp fraction passes over the weir or through the intermediate ports. The passage of the coarse fractions through each impeller eliminates short circuiting and thus, both fine and coarse mineral are subject to positive flotation.
A Sub-A cell will not choke up, even when material as coarse as one quarter inch is circulated. Choking cannot occur as the feed to each cell is to the top of the impeller. After a shut-down, it is not necessary to drain the Flotation Cell as the stationary hood with diffuser wearing plate protects the impeller and feed pipe from sanding-up. Even though the flotation feed is finely ground, coarse material occasionally gets into the circuit and if the Flotation Cell does not have the gravity flow feature, sanding and choke-ups will occur. This gravity flow principle of pulp circulation has made possible the widespread phenomenal success of a flotation cell between the ball mill and classifier. The recovery of mineral, as coarse and as soon as possible, in a high grade concentrate is now considered a requisite to a maximum metallurgical efficiency and hence Sub-A operators value its 24-hour per day service and freedom from shut-downs.
Middling products from Sub-As can be returned by gravity from any cell to any other cell in the average flotation circuit. The flexibility is possible without the aid of pumps or elevators. The middling pulp flows to the required cell and by means of a return feed pipe, falls directly on top of the impeller, assuring positive treatment and areation of the middling product without impairing the action of the cell. This feature, exclusive with Sub-A, is of particular advantage in circuits where several cleaning steps are required to bring middling products to final grade. The initial feed can also enter into the front or back of any cell through the return feed pipe.
Sub-A cells are under full control with normal operating conditions. The pulp level is maintained at the desired place with adjustable weirs. Aeration is controlled with flexible methods of air addition which allow variable aeration for different conditions. Any overloads or surges of coarse material from the grinding circuit are effectively taken care of with the sand relief openings, ports or quickly adjustable weirs. With these control features the operator has every opportunity to maintain his circuit in balance. Pulp fluctuations can be minimized and absorbed due to the control features.
Sub-A Flotation Equipment is metallurgically unsurpassed for the production of concentrates most suitable for subsequent thickening, filtering and smelting.The selectivity of Sub-A through all mesh sizes is one of the outstanding features of this Flotation Cell. Selectivity in Cells is not by chance, but results from the basic principle in design. The distinct gravity flow feature, coupled with the individual cell construction, controlled individually or in groups, and positive circulation through the cell, is to a large degree responsible for the recovery of coarse products by flotation. The advantage of positive circulation becomes obviously important with coarser grinds. A homogeneous and thoroughly mixed pulp is circulated at all times in each cell and there is no tendency towards. classification and segregation. Thorough mixing and aeration of all pulp fractions by positive circulation is the only means of obtaining selective flotation and metallurgical efficiency through all mesh sizes. The absence of pulp stratification prevents slime recovery from surface pulp or drift of heavy granular fractions through the cell. Selective flotation with Sub-A results in several major features, such as:
Recovery in flotation is of prime importance. In studying recoveries it is essential also to investigate thoroughly the intermediate products produced. It is a simple matter to make a high recovery or a low tailing if no thought is given to the nature of the concentrate produced or circulating load. Sub-A Flotation Cells will produce a high recovery, coupled with a high grade concentrate, low volume of middling, and a final concentrate most acceptable for subsequent treatment. The overall efficiency of this Flotation Cell will assure an equitable balance between recovery and nature of products produced.
Sub-A Flotation Cells have demonstrated that they alone produce products most acceptable for economic efficiency. In competitive tests where all phases of the operation are studied in thorough detail, it has been proven time and again that Sub-As show metallurgical advantages which contribute to the highest overall efficiency of an entire mining operation. Sub-A cells are:
(1) More selective through all mesh sizes. (2) Produce a coarser concentrate. (3) Produce a concentrate more acceptable to subsequent treatment. (4) Produce equal or higher recovery in conjunction with a higher grade concentrate and higher ratio of concentration.
A comparison of product assays does not give true and complete information with respect to the performance of a Flotation Cell. Product assays for two flotation machines operating in parallel could quite conceivably be identical, yet the physical characteristics of the products recovered and discarded would be entirely dissimilar. Wide differences which would be obvious in detailed investigation might not be indicated by a cursory examination. A detailed study of flotation concentrates shows that Sub-As recover the coarser more granular sulphides which parallel cells lose in the tailing. The higher recovery of coarse concentrate has been the story in every instance where Sub-A cells have been on a comparative basis. The use of Sub-A cells is responsible for the trend in concentration by flotation of coarse granular concentrates with minimum slimes. Higher recoveries have been possible in many instances by changes in grinding and removal of coarse primary concentrates. Recovery at a coarser grind means a decreased amount of slime mineral in the pulp. Absence of slime in concentrates is reflected in the analysis of the insoluble fraction. Sub-A cells always show a lower percentage of slime in concentrate due to selectivity and this means minimum refractories in subsequent treatment.
Screen analysis of products recovered and rejected clearly demonstrate the absence of sanding and segregation in Sub-A cells and the patented positive circulation principle assures balanced products.
The capacity of a flotation cell, treating any ore, depends upon facts and conditions which can best be determined by experience and test work. The pulp density and flotation contact period required materially affect the capacity of a Flotation Cell. With these factors known from previous work or test results, the size machine can be determined. Three conditions are factors in determining the proper size celland number of cells.
Flotation contact time required for the ore is one of the determining factors in calculating capacity. If an ore is slow floating and requires twelve minute treatment time, and another ore is fast floating and requires but six minute treatment, it is evident that a cellof only half the capacity is necessary in the last instance. Pulp density and specific gravity of dry solids control the cubic feet of pulp handled by the Flotation Cell, so are determining factors in calculating the flotation contact period. The Sub-A capacity recommendations are conservative figures which are based on years of actual field operation, treating many kinds of material.
The volume of the flotation cell must be known, as the volume in the Floatation Cell determines the time available for flotation of the values to take place. Therefore, the capacity of any Flotation Cell is dependent on the volume. All flotation cells having the same volume will have approximately the same capacity, with allowance made for horsepower, the efficiency of the impeller and aeration. As the flotation contact period is very important in any Flotation Cell, the actual cubical content of any machine should be carefully checked as well as accurate determinations on average pulp specifications.
Metallurgical results required from the floatation machine will have considerable bearing on the installed capacity. Several stages of cleaning may be required to give a high grade concentrate and this can be accomplished by the Sub-A, usually in one machine without resort to pumps for middling return. Results with cells of equal volume will not necessarily be equal because they may not be equally efficient. It may be easy enough to pass pulp through a Floatation Cell but to have a machine give a high-grade concentrate, to retreat middlings, and to give a low tailing, is an advantage obtained by use of Sub-As.
Under the table, problems are given to illustrate the methods of calculating the number of cells required. In order to secure the maximum positive treatment of the mineral, and to produce a high grade concentrate, it is best to have the necessary total volume divided into at least four cells and preferably six cells, each a separate cell, so that they may be used for roughing, cleaning, or recleaning purposes.
To determine the number of Sub-A cells requiredmultiply the proposed tonnage per day (24 hours) by the time (number of minutes necessary to float the mineral) then divide this product by the proper figure given in the table. This figure is secured by taking the size cellunder consideration (find the horizontal line giving the dilution of mill pulp and the vertical line giving the specific gravity of your ore); the figure will be at the point of intersection.For conservative estimates on a gold, silver, copper, or lead ore, use the tonnage capacities in the following table.
PROBLEM 2How many No. 18 Sp. (3232) Sub-A Cells are required to treat 125 tons of lead-zinc ore per day, with treatment time 14 minutes for the lead, dilution 3 to 1, and with treatment time 16 minutes for the zinc, dilution 3 to 1, and sp. gr. 3.4?
Continuous 24-hour per day service depends upon the mechanical design and construction of a Flotation Cell. There is no unit so rugged, nor so well built to meet the demands of the process, as the Flotation Cell. The ruggedness of each cell is necessary to give long life and to meet the requirements of the process. Numerous competitive tests all over the world have conclusively proved the real worth of these cells to many mining operators who demand Maximum results at the lowest cost.
The location of the feed pipe and the stationary hood over the rotating impeller account for the simplicity of the Sub-A cell construction. These parts eliminate swirling around the shaft and top of the impeller, reduce power load, and improve metallurgical results.
Improvements in construction of Sub- A cells during the last ten years have been gradually made as a result of plant scale testing and through suggestions from the mining fraternity. Today the Sub-A is mechanically unexcelled with rugged construction, pressure cured wearing parts, heavy duty, dependable drives. The abrasive cell zone is protected with rubber bottom liners and hard iron or Decolloy side liners. The heavy duty shafts are also rubber protected so the entire abrasive zone is sheathed for protection against wear.
The Sub-A, with its distinctive advantages, is moderately priced, due to standardization and quantity production. There is a definite mechanical or metallurgical reason behind the construction of every part of the Sub-A as explained in the following specifications.
The tank for the Flotation Cell is made of heavy steel joints are electric welded both inside and out. Partition plates are furnished with gaskets and arranged for bolting to partition channels so that if necessary all of the plates can be changed at any time in the field to provide either a right or left hand machine. Right hand machine is standard and will be furnished unless otherwise noted.
Flotation Cells are also available in wood tank construction especially suitable for corrosive circuits. These machines can be supplied with modifications so that they are ideal for use in special applications.
All cells are placed at a common floor level and due to the gravity flow principle of Flotation Cells almost any number of cells can be used in any circuit at one elevation without the necessity of pumps or elevators to handle the flow from one cellto the next. Operation and supervision is thus simplified.
For export shipments all of the items for the Flotation Cell are packed, braced, and blocked inside of the steel tank so that minimum volume is required. Safe delivery of parts without damage is thus assured.
The shaft and bearings of the Sub-A are supported in an enclosed ball bearing housing designed to properly carry and maintain the rotating impeller. Both the upper and lower heavy duty, oversized, anti-friction bearings are seated in this housing, insuring perfect alignment and protection against dirt.
Bearings have grease seals to prevent grease or oil getting into the cells; lubrication is only needed about once in six months. Many thousands of these standard bearings are in daily use on Sub- A cells, giving continuous service and low horsepower.
The hood, which is located near the bottom of the cell, is an important part of the assembly as it serves a number of purposes. The vanes on this hood prevent swirling of the pulp in the cell, producing a quiet action in the central or separation zone. The hood also supports the stationary standpipe and the hood wearing plate. Aeration of the pulp takes place in the impeller zone just below the stationary hood. The wearing plate is bolted to the bottom of the hood and prevents the impeller from being buried by pulp when the Flotation Cell is shut down.
Data from large operations have shown that the life of rubber parts is from six to fifteen times longer than the life of hard iron wearing parts. The slightly greater cost of these parts is therefore more than offset by the longer life. The advantages gained not only in lower maintenance but also in reduction in horsepower (because of the lower coefficient of friction when using molded rubber impellers) make them most economical. Both receded disk and conical disk wearing parts are also available in special hard alloy iron.
The receded disk impellers and diffuser wearing plates have been proved in commercial installations for many years and are one of the important developments made in the Flotation Cell. The receded disk impellers and diffuser wearing plates are furnished with all machines unless otherwise specified. The advantages of these parts are as follows:
Agitation is intense in the agitation zone but elsewhere it is held at a minimum and at the same time the air is finely dispersed throughout the pulp so that the cell surface presents the appearance of a smooth and quiet blanket of froth, conducive to good flotation. Molded rubber parts are recommended due to their lighter weight, perfect balance, and longer life.
In keeping with a long established policy, it is possible to use these parts on any Flotation Cell irrespective of age, without the necessity of making any major changes, thus adhering to the standard policy of No yearly models but continually improving.
The conical disk impellers and wearing plates, as illustrated, are obtainable for all sizes of machines. The conical disk impellers and wearing plates have been used in Flotation Cells for many years but are rapidly being replaced by the receded disk impellers and diffusers for general purposes. Conical disk impellers are recommended for Unit Flotation Cells and applications such as treatment of dense pulp and coarse material. Diameters of all impellers have a definite relationship to cell sizes, thus insuring uniform circulation of the pulp.
The Sub-A was the first Flotation Cellto use the Multi-V-Belt Horizontal Drive, which has proved so successful. Sub-A Flotation Cells have been carefully designed to be driven either by a motor and V-belts or by V-belts to a main drive shaft. In the motor driven type the impeller shafts are driven by V-belts, sheaves, and vertical ball bearing motor. This type of motor drive is much more economical and desirable than a direct motor driven unit because it makes any speed range available and does not require a special motor shaft assembly.
The standard drive on all flotation machines of an even number of cells is one motor driving two cells through V-belt drives. If an odd number of cells is ordered, a drive which will prove most economical in first cost and provide the greatest operating efficiency will be furnished. Adjustment of belt tension is provided for in the motor mounting.
The paddleshaftdrive is taken generally from the last impeller shaft by means of V-belt drive to a speed reducer, which in turn drives the paddleshaft at slow speed. The No. 30 paddleshaft drive is from a gear motor. The quick removal of the mineral froth, in the form of a concentrate, increases the recovery; quick removal of this mineral froth is very important and when a high grade concentrate is desired, the rotating paddles can be regulated as desired.
Every Sub-A Cell is actually an individual flotation machine with its own pulp level, controlled by its weir overflow. Correct overflow normally requires this positive pulp level control in each cell even though this adjustment when once made is infrequently changed. There are three methods of regulating pulp level:
Weir Blocks, as illustrated, slide easily into place at the weir, and consist of wood slats held down by means of a steel wearing bar. On the smaller machines, especially, adjustment by this means is easy as the weir is readily accessible. Actual plant practice shows in the normal circuit that it is not necessary to change the pulp level frequently.
Handwheel operated weir gates can be provided, as illustrated, so that changes in pulp level in each individual cell can be accomplished by turning the handwheel which is located far above the froth level. Changes in level can be made quickly and easily with minimum effort.
Gear driven handwheel gates, as illustrated, can be provided and are especially useful on large size Flotation Cells. This arrangement brings the control of the pulp level out to the front of the machine making it unnecessary to reach over the froth lip. The use of a gear box with handwheel control reduces the effort required for raising or lowering the gate, and provides a method of quick and easy adjustment.
Cell liners fit easily into the cell and consist of four cast iron liners and a rubber bottom liner. This bottom liner consists of a rubber compound similar to that used on the molded rubber parts, firmly bonded to a steel backing so that it does not rip or blister. This liner is held in place at the edges by the side liners.
Cell drainage is through an easily accessible port at the back of each cell.A small recirculation gate is provided near the top of each cell so that if desired, a portion of the pulp can be removed from the middling zone and returned to the impeller for retreatment. This recirculation feature influences the production of high grade concentrates in some cases. A gate is provided for this recirculation opening so that an adjustment of the zone and amount of recirculation can be varied.
Flotation Cells are provided with openings in the partition plates for by-passing the pulp from cell to cell without the pulp circulating through each hood feed pipe. In normal operation these partition gates are left closed; however, this arrangement is advantageous when large tonnages are fed to the Flotation Cell. This arrangement also allows the machine to be operated in groups of cells with the same positive control and circulation applied to each group.
The impeller assembly, consisting of steel shaft, totally-enclosed spindle bearings, standpipe, air- bonnet, hood, wearing plate, and impeller, fits easily into the cell as a unit. Diffuser and receded disk impellers, as illustrated, are furnished but conical disk impellers can be used if desired. The hood rests on corners of the cell side liners and is provided with keystone plug plates in front and back with recirculation openings. These recirculation opening in the plug plates can be opened, closed or bushed to small sizes as desired but in normal operation are closed. The keystone plug plate can be removed to provide an opening to the impeller for the return of middlings or feed, by means of return feed pipe which is easily placed to fit between the hood and front or back plate of the cell. Openings are provided in front of each cell for the return of middlings into any cell by gravity or these openings can be used to introduce feed into the cell if desired.
Adjustment of the impeller is easily and quickly accomplished from the rear of the Flotation Cell by means of the threaded rod holding the end of the spindle bearing housing. Proper adjustment of the clearance between impeller and wearing plate is important, and is easily done by loosening the bolts holding the spindle bearing housing and raising or lowering the entire housing by means of the adjustment provided by this threaded rod. After the proper clearance is secured the housing is tightened in place. Guides on each bearing housing keep rotation of impeller in perfect alignment and make vertical adjustment easy.
This policy of continual improvement is the aim for advancement of the Sub-A. Experiences gained in field studies have shown the factor of safety to use on shafting, bearings, and other operating parts.
Miningpioneered and developed the method of producing molded rubber wearing parts in 1932. Experience in handling practically all types of abrasive pulps, and in circuitswith various types of flotation reagents, and oils, have facilitated the development of suitable rubber compounds to meet all conditions. The use of Sub-A Flotation with molded rubber wearing parts is extremely valuable to the operator, with the assurance of the lowest possible maintenance cost. Molded rubber wearing parts are still the leaders in the field, giving trouble-free service for much longer periods than any other make impeller. Molded rubber impellers have handled some very large tonnages and records of 4 and 5 years continuous operation are common.
These features, combined with the sturdy construction of the cells, oversize bearings, heavy duty shafting and rugged cell liners, are showing average maintenance costs including labor for installation of less than $0.001 per ton in many cases. Even under the most adverse conditions Sub-A Cells rarely show total repair cost in excess of $0.003 per ton.
Each Sub-A Cell is provided with an air bonnet on the shaft assembly so that low pressure air may be connected if desired. To assure complete diffusion of air in the pulp an automatic seal is built in each weir casting.
Feed may enter any cell of a Flotation Cell, through the front or back. The hand of the Sub-A may be easily changed in the field by reversing the position of the weir casting with plate and partition plate. The hood assembly is turned through 180 degrees and the feed liner is changed with the liner in the opposite segment.
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