GB2147824A - Apparatus for and method of obtaining a comminuted product from a solid feed material - Google Patents

Abstract

An apparatus for obtaining a comminuted "fines" product from a solid feed material, a large proportion of the particles of which are greater than 1cm, comprises a housing having a lower region forming a crusher 10 and an upper region forming a classifier 11. There is an inlet for the solid feed material leading to a hopper 22 from whence feed material passes to a rotor 13 which causes the material to be flung centrifugally outwards in the crushing chamber 23 where it is comminuted the impact surface being partiallyorwholly composed of the feed material. As a result of movement of the rotor, there is a predominantly upward airflow F from the crushing chamber 23 to the classifier 11. This air flow entrains a high proportion of "fines" which can be classified, in the classifier 11 using vanes 21, and collected. The apparatus is capable of producing an output product having a very high proportion of "fines" of less than 150 mu size from even very abrasive feed material with particles of a size up to 5 cm. <IMAGE>

Description

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GB 2 147 824 A 1

SPECIFICATION

Apparatus for and method of obtaining a comminuted product from a solid feed material

5 This invention relates to an apparatus for and a method of obtaining a comminuted product from a solid feed material.

There is known a wide variety of apparatus for reducing the size of solid materials and examples of such apparatus are described, for example, at pages 8-16 to 8-44 of the 5th edition of "Chemical Engineers' Handbook" edited by R.H. Perry and C.H. Chilton and published by McGraw-Hill Book Company in 1973. 10 Further information is to be found, for example, in the book "Crushing and Grinding-The Size Reduction of Solid Materials" by G.C. Lowrinson and published by Butterworths in 1974.

It is generally accepted that in orderto obtain from a feed material largerthan 1cm in size a product smaller than 150(j,m it is necessary to use a succession of pieces of equipment including: one or more crushers followed by a grinding mill for successively reducing particle size; and a separator or classifier 15 wherein final classification of the particles is undertaken.

British Patent Specifications Nos. 645,673,522,339 and 386,698 disclose examples of methods and apparatus for fine grinding where a feed material with a generally small particle size, usually considerably less than 1cm, is ground down to produce a fines output. The apparatus of these three specifications grinds the material by causing it to come into contact with components of the apparatus, for example beaters, 20 grinding rings or grinding bodies. The construction of these grinding apparatus is such that they cannot grind large particles (for example, greater than about 1cm) nor can they operate economically with highly abrasive materials due to the wear and tear which would result from contact with the grinding components.

British Patent Specifications Nos. 1,579,295 and 1,531,254 disclose examples of crushing apparatus which use two counter-rotating components to crush material by contact of the material with these components. 25 Problems often arise where counter-rotating components are used due to gyroscopic effects. In addition, the components are subject to a considerable amount of erosion and need continual attention and maintenance. One way of attempting to reduce such erosion is disclosed in United States Patent Specifications Nos. 3,180,852 and 3,162,382 where centrifugal pulverisers are provided for reducing the wear on moving parts by incorporating angle members to trap matter centrifugally flung from a rotor whereby a protective surface is 30 built up. However, the problems involved in using two counter-rotating parts are not overcome.

We have now found surprisingly that by modifying the construction of one type of crusher it is possible to obtain directly, and at a reduced cost, from a feed material substantially all of which is coarser than 1cm good yields of a product finer than 150fim.

According to one aspect of the present invention there is provided a method of obtaining a comminuted 35 product at least a major proportion of which is smallerthan 150|xm from a solid feed material at least a major proportion of which is larger than 1 cm, which method comprises centrifugally flinging the feed material towards an impact surface which is composed partially or wholly of such material whereby the feed material is comminuted; and entraining in a predominantly upward airflow a portion of the comminuted material comprising particles of less than a given size, to classify the particles to produce the product. 40 In accordance with another aspect of the present invention there is provided an apparatus suitable for carrying out the method according to the one aspect of the present invention, which apparatus comprises a housing having a lower region forming a crusher, an upper region forming a classifier, an inlet for a solid feed material, and an outlet for a product, wherein the crusher comprises:

means which, in use, cause the feed material to be flung towards an impact surface in said lower region of 45 the housing, said means and the disposition of the lower region of the housing being such that some of the feed material is retained, by gravity and friction forces, in said lower region of the housing so that the impact surface is composed partially or wholly of the material so retained, whereby the material is comminuted;

and means for causing during use of the apparatus a predominantly upward airflow from the lower region to 50 the upper region of the housing which airflow entrains a portion of the comminuted material and conveys it to the upper region of the housing for classifying said portion of the comminuted material according to particle size to produce said product.

In accordance with a further aspect of the present invention there is provided equipment comprising: an apparatus in accordance with said other aspect of the present invention;

55 first conveyor means for conveying the feed material to the inlet; and second conveyor means for returning oversize particles from a further output of the apparatus to said first conveyor means for recomminuting said oversize particles.

In one embodiment of the present invention, the crusher comprises a rotor which is adapted to rotate about a vertical or substantially vertical axis and which, in use, causes the feed material to be flung 60 centrifugally towards the impact surface.

The given size will vary according to the desired requirements for the characteristics of the product and is dependent on the velocity of material leaving the rotor, th&velocity of the air-flow and the type and density of the feed material.

The apparatus of the invention can be constructed by modifying a crusher of the kind which utilise 65 stonebeds or crushing beds derived from the same material as that which is to be comminuted, either by

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GB 2 147 824 A

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impact or attrition or interparticle comminution. A crusher of this type is described in British Patent Specification No. 1439639, the matter contained therein being herein incorporated by reference.

The crusher of British Patent Specification No. 1439639, and the method of crushing described therein give rise to a certain amount of a "fine product" which heretofore has merely been a byproduct of the crushing 5 process. In this context the term "fine product" is used to describe particles having a size of less than 150|xm.

We have now found that if the crusher of British Patent Specification No. 1439639 is modified so as to provide an apparatus in accordance with the present invention, a "fine product" output comparable to that achieved by conventional grinding mills of roller and ring or roller and table design, can be attained by the apparatus, with savings in capital costs and running costs, especially in the case of abrasive fines. 10 Preferably, in the apparatus according to the one aspect of the present invention, the lower region of the housing is provided with a lid portion having one or more aperture through which said predominantly upward airflow can pass for conveying said portion of comminuted material to the upper region of the housing.

In the described embodiment, the classifier comprises a double cone separator having an outer cone for 15 receiving said predominantly upward airflow and an inner cone through which comminuted material comprising particles greater than a given size can be returned to the crusher.

For a better understanding of the present invention, and to show more clearly how the same may be carried into effect, reference will now be made, by way of example, to the accompanying drawings, in which:-

20 Figure 1 shows on a larger scale part of an apparatus in accordance with one embodiment of the present invention;

Figure 2 shows a diagrammatic section through the apparatus of which part is shown in Figure 1;

Figure 3 illustrates diagrammatically equipment using an apparatus in accordance with another embodiment of the present invention;

25 Figure 4shows a section through an apparatus as shown in Figure 3;

Figure 5 is a plan view of the apparatus of Figure 4;

Figure 6 is a view looking in the direction of arrow VI in Figure 4;

Figure 7 is a view looking in the direction of arrow VII Figure 4; and

Figure 8 is a section taken along line VIII-VIII in Figure 4 with the feed chute having been removed. 30 Figure 1 shows a portion of a crusher such as that described in British Patent Specification No. 1439639 which has been modified to provide an apparatus in accordance with the present invention and which is generally designated by reference numeral 10. Large amounts of a "fine product" are internally circulating, within the confines of a housing 12 of the crusher, on an air current caused by the fan effect of the rotor 13. Furthermore, due to internal air vanes 14 within the housing 12, the airflow is caused to circulate in an 35 upwards direction, i.e. vertically upwards from the horizontal plane of the rotor 13. One important modification is the construction of a lid 1 of the housing 12 as a removable portion, rather than as an integral part of the housing.

Arrow A indicates the direction of the predominant air flow within the housing; arrow F-i indicates the incoming feed; and reference numeral 16 indicates a dust flap.

40 Thus, as shown in Figure 2, a "double cone separator", generally designated by reference numeral 11, is attached over the portion of the crusher shown in Figure 1, thereby making it possible to extract the "fine" airborne material into this double cone separator.

The double cone separator is constructed as follows:

Two cones 18,19 of differing dimensions are constructed, the smaller cone 18 being fixed inside the larger 45 cone 19 with a spacer 20 between the two cones.

Around the periphery of the top of the inner cone 18 are vanes 21 which can be mechanically adjusted from the outside of the encapsulating outer cone 19. In addition, a duct 17 is led from the inner cone 18 to the outside upper end of the larger, outer cone 19. This duct 17 is attached to a suction fan which in turn is in series with a cyclone. The lower end of the smaller, inner cone 18 is led back into a feed hopper 22 of the 50 crusher where it is sealed to the feed hopper structure.

it is possible to induce greater volumes of a "fine product" into the separator 11 by connecting the exit or discharge part of the separator to a multi blade fan which is in effect sucking the material up into the double cone. Differing points of split can be attained by operating the fan which draws the fine material from the crusher 10, passing it into the large enclosing cone 19 where it takes up a cyclonic motion, and then either 55 moving the control vanes 21 radially ortangentially.

The "fine" fraction of material exits via a fan duct and ultimately discharges the required fines into a cyclone for future reclamation, while the coarse material falls down the inner cone 18 and is discharged back into the crusher 10 via a sealed joint into the crusher feed system.

The arrows F indicate the "fine" material which is to be classified, and the arrow O represents the tailings 60 which are returned to the crushing chamber 23 of the crusher 10.

The particles in the comminuted material which are not entrained in the upwards airflow fall through a discharge chute 24 and may be returned to the feed hopper of the crusher 10 by means of conveyor belts 25, 26.

As an alternative to the external fan it is possible to attach fan blades to the rotor 13, adjusting the power of 65 the motor or feed to compensate for the additional drag which would result.

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This could be achieved by attaching a fan plate to the top of the rotor, and would reduce the required capacity of the external fan.

Figure 3 shows an alternative arrangement for using a crusher in accordance with another embodiment of the present invention (and shown in Figure 4). In the arrangement of Figure 3, a feed hopper 30 is arranged to 5 supply a feed material fed into the hopper 30 to a table feeder 32. A first feed conveyor 34 is arranged to transport material from the table feeder 32 to an inlet of the crusher, generally designated by reference 10' in Figure 3. As described earlier, coarse material is discharged at an outlet of the crusher 10' to be returned by means of a second conveyor 36 to the first conveyor 34 for recycling to the inlet of the crusher 10'. A screen 38 may be used for screening material discharged from the crusher 10' on conveyor 36 before it is returned 10 to conveyor 34. The fines output from the crusher 10' is fed via ducting 40 to a cyclone 42 which has an output to a bagging plant for reclamation of the "fines". An extraction fan and motor 44 is disposed in ducting 46 leading from the cyclone 42 for the extraction of air from the cyclone. It has been found in use of the apparatus that the air outputted from duct 46 contains a high portion of extremely fine material so for the purposes of reclaiming this material and so that it is not dispersed into the atmosphere, ducting 46 leads to 15 one or more bag filter for collection of the extremely fine material.

The arrangement of Figure 3 with the feed hopper 30 and conveyors 34,36 has the advantage that the feed material inputted to the crusher 10' may be controlled. The screen 38 is installed to take out coarse material only as required. This enables material of a more or less constant bulk density to be inputted to the apparatus to avoid problems which may arise due to an insufficient amount of large particles being present, 20 such as reduced crushing efficiency and stalling of the motor.

The crusher 10' shown in Figure 3 will now be described in more detail with reference to Figures 4to 8, primed reference numerals designating the same parts as reference numerals in Figures 1 and 2. The standard details of the crusher are shown in British Patent Specification No. 1439639 and are not described in detail herein. The crusher shown in Figure 4 has an input duct 48 into which feed material is fed from 25 conveyor 34 in the direction of arrow F2'. The feed material enters the crusher and is flung outwards by rotor 13' to be crushed against a bed of material built up against the walls of the housing 12' in a crushing chamber 23'.

The apparatus shown in Figure 4 differs from that shown in Figure 1 in that the removable portion or lid 1' of the housing 12' is provided, as shown in Figure 5, with twelve circumferentially spaced openings 50 (three 30 only being shown in Figure 5). With twelve such openings 50, the angle 0 is 30°. In addition, the larger cone 19', instead of being constructed along the dotted line in Figure 4 (as it is in Figure 1) is constructed as a cone in its upper region with upwardly extending walls 52 in its lower region which meet the lid 1' of the housing 12' at a region which is further away from the centre line of the crusher 10'than in the apparatus of Figure 1. In the embodiment shown in Figure 1, the air must flow around a corner between the rotor 13 and the 35 housing 12 which can create a restriction in the airflow, and turbulence. In contrast, in the embodiment shown in Figure 4, the air can flow directly upwardly from the crushing chamber 23' without such restriction. This disposition of the walls 52 of the larger cone 19' of the separator in combination with the openings 50 in the lid 1' remarkably increases the upward flow of air from the crusher through the separator, and consequently the percentage output of "fines".

40 Twelve air inlets 54 (Figure 6) are disposed in the upwardly extending wall 52 of the larger cone 19', which enable a further adjustent of the air flow to be made. In practice, however, it has been found that the crusher operates in an optimum manner with these air inlets fully open. The flow of air through the crusher can also be controlled by adjustment of the spacing of vanes (not shown in Figure 4) in the upper region of the separator and of a thimble 56, which can move up and down between the lines x-x and y-y: with the thimble 45 pushed down, the product becomes coarser. In this way, the particle size in the output material can be finely controlled since it is dependent on the upward air flow which varies with the volume available in the separator.

As shown in Figure 8, an inspection door 58 is provided whereby the crushing chamber 23' can be inspected.

50 The following dimensions are given by way of example for the crusher shown in Figure 4:

diameter of thimble 56,

a

= 88.5cm diameter of thimble plate 57,

b

= 105cm outside diameter of upwardly extending wall 55 of inner cone.

c

140cm inside diameter of upwardly extending wall 54 of outer cone,

d

177cm vertical dimensions of separator,

e

= 33cm

f

= 150cm

g

199cm

h

= 252cm width of air inlet 54,

i

= 31cm spacing between air inlets 54,

j

= 15.3cm spacing between ports 50,

k

= 10cm width of feeder 48,

I

= 56cm width of inspection door 58,

m

= 50cm

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As an illustration of the capability of the crusher shown in Figure 4, the following tests have been carried out using calcined phosphate. In the test:

the speed of the conveyor belt 34 feeding the crusher was 400ft per minute (2.03 ms-1);

the speed of the recycling conveyor 36 was 200 ft per minute (1.02 ms-1);

5 the recycling rate of material through the closed circuit 34,10',36 was 32.8 tons (33.3 tonnes) per hour; The motor being used was generating 150 horse power; and the volume of air used was 14,000 cubicft per minute (0.025 cubic metres per second), although this could be reduced to about 11,000 cubic ft per minute for a similar output.

10 Material: Calcined Phosphate from West Africa.

Feed Size-. All minus 30 mm.

1. Capacity: 2.5 T.P.H. (2.54 tonnes per hour) finished product. (Classifyer set fine)

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Analysis of Product:

TESTA

TESTB

TESTC

- 420 micron

99.8%

99.9%

99.9%

-210 micron

97.6%

98.0%

98.1%

-150 micron

94.9%

95.4%

96.5%

- 75 micron

81.6%

82.2%

86.0%

- 53 micron

70.4%

70.4%

75.2%

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2. Capacity: 5.76 T.P.H. (5.85 tonnes per hour) finished product (Classifyer set coarse).

Analysis of Product:

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TESTA

- 420 micron

99.5%

- 210 micron

98.1%

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-150 micron

92.7%

- 75 micron

52.9%

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- 53 micron

27.6%

In the above test, the rise in temperature of the material after one hour was 15°C, the temperature reamining stable thereafter. This rise in temperature can be an advantage, particularly where hygroscopic 50 materials are being used. Thus, the apparatus is capable of handling raw feed material which has not been previously dried. About 10% of the net output was carried forward as extremely fine material to the bag filters via ducting 46.

Typically, the feed material inputted to the crusher may have a bulk density of about 81 lb per cubic ft (0.35 kg per cubic centimetre).

55 The test results are illustrative of the extremely high percentage of "fines" in the output which can be achieved from the apparatus of the present invention. The apparatus accordingly has applications for use with a wide variety of materials, and is particularly useful with very abrasive materials which cannot be used economically in existing fine grinding mills.

Other advantages of the apparatus of the present invention are as follows:

60 a) its increased capacity, that is the quantity of material which can be comminuted per unit of energy input to the apparatus;

b) the possibility of using the crusher for very abrasive materials (for example quartzite, basalt, granite, steel slag, copper slag, brown fused alumina, and Chinese bauxite) with greatly reduced maintenance costs due to wear and tear, this being a result of the crusher being designed originally for crushing highly abrasive 65 materials;

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c) the particle size of feed material can be as high as 50mm, which is much greater than the material normally accepted by existing fine grinding equipment; and d) since no metallic grinding plates are used, as in many conventional fine grinding mills, contamination of the output product is minimal - this is particularly useful where the final product is to be used in high grade

5 materials.

It will be appreciated that an apparatus and a method in accordance with the present invention may be used to produce a "fine product" for a variety of applications. For example, for industrial applications, the product material may comprise phosphate, potash or talc. The apparatus may further be used in the field of metalliferous mining to extract a metal, such as copper, tin, silver, gold, iron, lead or zinc, from its ore.

10 In addition, as mentioned hereinabove, the apparatus is capable of handling material of a higher moisture content than most existing equipment since the material is not forced through a gap of a predetermined size as occurs, for example, in roller path type grinding mills. In such mills, material with a high moisture content can become compacted and thus affect operation of the mill.

Claims (8)

15 CLAIMS

1. A method of obtaining a comminuted product at least a major proportion of which is smaller than 150fxm from a solid feed material at least a major proportion of which is larger than 1cm, which method comprises centrifugally flinging the feed material towards an impact surface which is composed partially or

20 wholly of such material whereby the feed material is comminuted; and entraining in predominantly upward airflow a portion of the comminuted material comprising particles of less than a given size, to classify the particles to produce the product.

2. A method of obtaining a comminuted product substantially as hereinbefore described with reference to the accompanying drawings.

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3. An apparatus for obtaining a comminuted product from a solid feed material, which apparatus comprises a housing having a lower region forming a crusher, an upper region forming a classifier, an inlet for a solid feed material, and an outlet for a product, wherein the crusher comprises:

means which, in use, cause the feed material to be flung towards an impact surface in said lower region of the housing, said means and the disposition of the lower region of the housing being such that some of the

30 feed material is retained, by gravity and friction forces, in said lower region of the housing so that the impact surface is composed partially or wholly of the material so retained, whereby the material is comminuted;

and means for causing during use of the apparatus a predominantly upward airflow from the lower region to the upper region of the housing which airflow entrains a portion of the comminuted material and conveys it

35 to the upper region of the housing for classifying said portion of the comminuted material according to particle size to produce said product.

4. An apparatus as claimed in claim 3, wherein the crusher comprises a rotor which is adapted to rotate about a vertical or substantially vertical axis and which, in use, causes the feed material to be flung centrifugally towards the impact surface.

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5. An apparatus as claimed in claim 3 or 4, in which the lower region of the housing is provided with a lid portion having one or more aperture through which said predominantly upward airflow can pass for conveying said portion of comminuted material to the upper region of the housing.

6. An apparatus as claimed in claim 3,4 or 5, wherein said classifier comprises a double cone separator having an outer cone for receiving said predominantly upward airflow and an inner cone through which

45 comminuted material comprising particles greater than a given size can be returned to the crusher.

7. An apparatus for obtaining a comminuted product from a solid feed material, substantially as hereinbefore described with reference to, and as shown in, Figures 1 and 2 or Figures 3 to 8 of the accompanying drawings.

8. Equipment for obtaining a comminuted product compising: an apparatus as claimed in any of claims 3

50 to 7; first conveyor means for conveying the feed material to the inlet; and second conveyor means for returning oversize particles from a further output of the apparatus to said first conveyor means for recomminuting said oversize particles.

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Printed in the UK for HMSO, D8818935, 3/85, 7102.

Published by The Patent Office, 25 Southampton Buildings, London, WC2A 1AY, from which copies may be obtained.