Title of Invention	APPARATUS FOR GRINDING OF PARTICULATE MATERIAL
Abstract	A description is provided of a method as well as an apparatus for grinding particulate material, such as cement raw materials, cement clinker or similar materials, in a roller mill (1) by subjecting the material to pressing action in a zone (13) between opposite, rotating surfaces where the material is directed to the grinding zone via a feed shaft (11). The method is peculiar in that the material in the feed shaft (11) is accelerated through the action of gravity to a desired velocity without involving essential air admixture, whereas the apparatus is peculiar in that the feed shaft is essentially of a vertical configuration, with a downwardly reduced cross-section, where the reduction of the shaft~s cross-sectional circumference per height unit is downwardly decreasing. The described configuration of the feed shaft has, surprisingly, proved that the material over a given height of fall may attain high velocities and that this is achievable without involving admixture of air into the material. It has thus been established that it will be possible for the material to attain velocities which are close to the velocity achievable in connection with the free fall of individual particles.

Title of Invention

APPARATUS FOR GRINDING OF PARTICULATE MATERIAL

Abstract

A description is provided of a method as well as an apparatus for grinding particulate material, such as cement raw materials, cement clinker or similar materials, in a roller mill (1) by subjecting the material to pressing action in a zone (13) between opposite, rotating surfaces where the material is directed to the grinding zone via a feed shaft (11). The method is peculiar in that the material in the feed shaft (11) is accelerated through the action of gravity to a desired velocity without involving essential air admixture, whereas the apparatus is peculiar in that the feed shaft is essentially of a vertical configuration, with a downwardly reduced cross-section, where the reduction of the shaft~s cross-sectional circumference per height unit is downwardly decreasing. The described configuration of the feed shaft has, surprisingly, proved that the material over a given height of fall may attain high velocities and that this is achievable without involving admixture of air into the material. It has thus been established that it will be possible for the material to attain velocities which are close to the velocity achievable in connection with the free fall of individual particles.

Full Text	APPARATUS FOR GRINDING OF PARTICULATE MATERIAL The present invention relates to an apparatus for grinding of particulate material such as cement raw materials', cement clinker or similar materials, in a roller mill, such as a roller press, ring-roller mill, vertical mill or a similar unit. The shaft being of substantially vertical configuration and with a downwardly reduced cross-section. An apparatus of the aforementioned kind is prior art. In recent years, developments in grinding technology have primarily been devoted to improving the cost efficiency of the grinding process. In this context, the primary focus has been to improve the operating economy of the grinding process and to reduce the capital cost of the grinding machines relative to their capacity ratings. A method widely used to lower the investments costs involves prating of the operating speed of a machine, cuie hence its productivity. Needless to say, the operating speed of a machine can only be increased up to a certain point, and, furthermore, it is a recognized fact that problems are likely to occur in connection with the operation of, for earplug, a roller press if the peripheral velocity of the rollers is increased arbitrarily. Such operating problems may be ascribable to many different causes. On explanation could be the difficulty of achieving an acceleration of the material sheikh is to be ground in the roller press to an extent which corresponds to the peripheral velocity of the rollers. Such acceleration of the material is usually achieved by means of the rollers by physical contact with the latter and/or through the action of gravity. However, the capability of the rollers is restricted to a very short range of operation, thereby severely limiting the rate of acceleration, and in a shaft the force of gravity will either be counteracted by the friction of the material against the shaft and/or the friction present in the material itself. Also, acceleration accomplished in a traditional shaft will also entail significant admixture of air, which is undesirable, and this will also adversely affect the grinding process• Use of a vertical shaft with a circular or rectangular cross-section and with an identical cross-sectional area across the entire length will enable the force of gravity to accelerate the material to a high velocity, but in this scenario there will be a simultaneous increase in the distance between the particles, thereby decreasing the density of the material an involving air admixture. By using a shaft of a pyrimidal or conical configuration, it will be possible to maintain the distance between the particles, but in a shaft of this type the material will be influenced by forces of friction which are so substantial that the terminal velocities attainable are quite small. In such ordinary shafts the cross-sectional circumference is a linearly-decreasing function of the height. The reduction of the cross-sectional circumference per height unit thus remains constant for these shafts. It is the objective of the present, invention to provide an apparatus for remedying the aforementioned deficiencies. This is achieved by an apparatus of the kind mentioned in the introduction, and being characterized in that- the reduction of the shaft's cross-sectional circumference per height unit is downwardly decreasing. The described configuration of the feed shaft has, surprisingly, proved that the material over a given height of fall may attain high velocities, and that this is feasible without involving admixture of air into the material. It has thus been established that it will be possible for the material to attain velocities which are close to the velocity achievable in connection with the free fall of individual particles. The material can be accelerated to a velocity of more than 1.5 m/s. However, it is preferred that the material be accelerated to a velocity of more than 5 m/s, and preferably of more than 10 m/s. An example of the cross-sectional characteristics according to the invention is known from the form of a free-falling water jet, for example from a slow-running water tap. At the top, at the outlet of the water tap, the water flow rate is quite small, with the width of the water jet corresponding roughly to the outlet. Further downstream of the jet the force of gravity has increased the water flow rate, but since the water flow throughout the jet is the same, and since the density throughout the jet is also the same, this means that the cross-section of the water jet is smaller. In this way the water jet will attain an almost hyperbolic shape and the characteristics of the cross-sectional area as a function of the height of fall can be expressed by means of the formula: A is the cross-sectional area V is the volume flow g is the gravity acceleration h is the height of fall A is a correction element which describes the friction in the material, assuming for water a small value which is close to 0 The water jet must be assumed to roughly circular and, therefore, its circumference can be calculated on the basis of the formula: (2) O is the circumference D is the diameter of the water jet As it appears from the aforementioned formula, the circumference is proportional not to the height of fall but to the height of fall to power According to the invention it is preferred that the shaft be configured so that its cross-sectional area as a function of the fall of height is essentially as defined in the formula above. To make allowance for the friction which occurs when feeding particulate material via a shaft according to the invention, the correction element A must be within the range 0 and 0,2, preferably lower than 0.1. The shaft may, for example, be made up of a number of pyramidal or conical sections so that the reduction of the cross-sectional circumference of the shaft exhibits a gradual, downwardly decreasing trend. To ensure that the shape of such a shaft does not deviate too much from the formula (1) indicated above, it is preferred that the number of sections incorporated is at least 3, but preferably at least 5, and most preferably at least 10. However, it is preferred that the reduction of the cross-sectional circumference of the shaft exhibits a continuous downwardly decrease, and that for example the shaft is of a trumpet-shaped configuration. In principle, it will be possible to use the shaft according to the invention for conveying any particulate material from one level to a lower level by the action of gravity, and for this purpose the shaft should be of a substantially vertical configuration, with a downwardly reduced cross-section where the reduction of the cross-sectional circumference of the shaft is downwardly decreasing. The invention will be explained in further details in the following with reference being made to the drawing, which is diagrammatical, and where Fig. 1 shows a roller press installation comprising a feed shaft according to the invention. In Fig. 1 is seen a roller press installation comprising a roller press 1 with two oppositely rotating rollers 3 and 5. During the operation of the roller press, the material to be ground is fed from a bin 7 via a feed conveyor 9 and a feed shaft 11 to a grinding zone 13 between the rollers 3 and 5. According to the invention the depicted shaft is formed with a downwardly reduced cross-section in such a way that the reduction of the shaft's cross-sectional circumference per height unit is also downwardly decreasing. Ideally the shaft is formed with a downwardly decreasing cross-section which is inversely proportional to the steadily downwardly increasing velocity of the material due to the gravity-induced acceleration. Hence it will be possible for the material to achieve a velocity close to the velocity of a free fall without admixture of air, allowing the roller press to be operated at higher roller velocities, thereby increasing its rate of production. The applicant filing the present patent application has conducted tests with a shaft configured in accordance with the aforementioned guidelines, with a final cross section of 0.1 X 0.1 metres and a height of 5 metres, and has recorded a material velocity which is close to 10 m/s without air admixture. Claims 1. An apparatus for grinding of particulate material such as cement raw materials, cement clinker or similar materials, which apparatus comprises a roller mill (1) as well as a shaft (11) for feeding particulate material to the grinding zone (13) of the roller mill, the shaft (11) being of a substantially vertical configuration and with a downwardly reduced cross-section characterized in that the reduction of the shaft's cross-sectional circumference per height unit is downwardly decreasing. 2. An apparatus according to claim 1 the cross-sectional area of the shaft as a function of the height of fall is in accordance with the formula A is the cross-sectional area V is the volume flow g is the gravity acceleration h is the height of fall A is within the range 0 and 0.2, preferably lower than 0.1, 3. An apparatus according to claim 1 characterized in that the shaft is made up of at least 3 pyramidal or conical sections. 4. An apparatus according to claim 1 or 2 characterized in that the reduction of the cross-sectional circumference of the shaft exhibits a continuous downwardly decrease. 5. An. apparatus according to claim 4 characterized in that the shaft is of a trumpet-shaped configuration. 6. An apparatus for grinding of particulate material substantially as herein described with reference to the accompanying drawing.

Full Text

APPARATUS FOR GRINDING OF PARTICULATE MATERIAL
The present invention relates to an apparatus for grinding of particulate material such as cement raw materials', cement clinker or similar materials, in a roller mill, such as a roller press, ring-roller mill, vertical mill or a similar unit. The shaft being of substantially vertical configuration and with a downwardly reduced cross-section.
An apparatus of the aforementioned kind is prior art.
In recent years, developments in grinding technology have primarily been devoted to improving the cost efficiency of the grinding process. In this context, the primary focus has been to improve the operating economy of the grinding process and to reduce the capital cost of the grinding machines relative to their capacity ratings. A method widely used to lower the investments costs involves prating of the operating speed of a machine, cuie hence its productivity. Needless to say, the operating speed of a machine can only be increased up to a certain point, and, furthermore, it is a recognized fact that problems are likely to occur in connection with the operation of, for earplug, a roller press if the peripheral velocity of the rollers is increased arbitrarily.
Such operating problems may be ascribable to many different causes. On explanation could be the difficulty of achieving an acceleration of the material sheikh is to be ground in the roller press to an extent which corresponds to the peripheral velocity of the rollers. Such acceleration of the material is usually achieved by means of the rollers by physical contact with the latter and/or through the action of gravity. However, the capability of the rollers is restricted to a very short range of operation, thereby

severely limiting the rate of acceleration, and in a shaft the force of gravity will either be counteracted by the friction of the material against the shaft and/or the friction present in the material itself. Also, acceleration accomplished in a traditional shaft will also entail significant admixture of air, which is undesirable, and this will also adversely affect the grinding process• Use of a vertical shaft with a circular or rectangular cross-section and with an identical cross-sectional area across the entire length will enable the force of gravity to accelerate the material to a high velocity, but in this scenario there will be a simultaneous increase in the distance between the particles, thereby decreasing the density of the material an involving air admixture. By using a shaft of a pyrimidal or conical configuration, it will be possible to maintain the distance between the particles, but in a shaft of this type the material will be influenced by forces of friction which are so substantial that the terminal velocities attainable are quite small. In such ordinary shafts the cross-sectional circumference is a linearly-decreasing function of the height. The reduction of the cross-sectional circumference per height unit thus remains constant for these shafts.
It is the objective of the present, invention to provide an apparatus for remedying the aforementioned deficiencies.
This is achieved by an apparatus of the kind mentioned in the introduction, and being characterized in that- the reduction of the shaft's cross-sectional circumference per height unit is downwardly decreasing.
The described configuration of the feed shaft has, surprisingly, proved that the material over a given height

of fall may attain high velocities, and that this is feasible without involving admixture of air into the material. It has thus been established that it will be possible for the material to attain velocities which are close to the velocity achievable in connection with the free fall of individual particles.
The material can be accelerated to a velocity of more than 1.5 m/s. However, it is preferred that the material be accelerated to a velocity of more than 5 m/s, and preferably of more than 10 m/s.
An example of the cross-sectional characteristics according to the invention is known from the form of a free-falling water jet, for example from a slow-running water tap. At the top, at the outlet of the water tap, the water flow rate is quite small, with the width of the water jet corresponding roughly to the outlet. Further downstream of the jet the force of gravity has increased the water flow rate, but since the water flow throughout the jet is the same, and since the density throughout the jet is also the same, this means that the cross-section of the water jet is smaller. In this way the water jet will attain an almost hyperbolic shape and the characteristics of the cross-sectional area as a function of the height of fall can be expressed by means of the formula:

A is the cross-sectional area
V is the volume flow
g is the gravity acceleration
h is the height of fall
A is a correction element which describes the friction in
the material, assuming for water a small value which is
close to 0

The water jet must be assumed to roughly circular and, therefore, its circumference can be calculated on the basis of the formula:
(2)
O is the circumference
D is the diameter of the water jet
As it appears from the aforementioned formula, the circumference is proportional not to the height of fall but
to the height of fall to power
According to the invention it is preferred that the shaft be configured so that its cross-sectional area as a function of the fall of height is essentially as defined in the formula above. To make allowance for the friction which occurs when feeding particulate material via a shaft according to the
invention, the correction element A must be within the range 0 and 0,2, preferably lower than 0.1.
The shaft may, for example, be made up of a number of pyramidal or conical sections so that the reduction of the cross-sectional circumference of the shaft exhibits a gradual, downwardly decreasing trend. To ensure that the shape of such a shaft does not deviate too much from the formula (1) indicated above, it is preferred that the number of sections incorporated is at least 3, but preferably at least 5, and most preferably at least 10.
However, it is preferred that the reduction of the cross-sectional circumference of the shaft exhibits a continuous downwardly decrease, and that for example the shaft is of a trumpet-shaped configuration.

In principle, it will be possible to use the shaft according to the invention for conveying any particulate material from one level to a lower level by the action of gravity, and for this purpose the shaft should be of a substantially vertical configuration, with a downwardly reduced cross-section where the reduction of the cross-sectional circumference of the shaft is downwardly decreasing.
The invention will be explained in further details in the following with reference being made to the drawing, which is diagrammatical, and where
Fig. 1 shows a roller press installation comprising a feed shaft according to the invention.
In Fig. 1 is seen a roller press installation comprising a roller press 1 with two oppositely rotating rollers 3 and 5. During the operation of the roller press, the material to be ground is fed from a bin 7 via a feed conveyor 9 and a feed shaft 11 to a grinding zone 13 between the rollers 3 and 5.
According to the invention the depicted shaft is formed with a downwardly reduced cross-section in such a way that the reduction of the shaft's cross-sectional circumference per height unit is also downwardly decreasing. Ideally the shaft is formed with a downwardly decreasing cross-section which is inversely proportional to the steadily downwardly increasing velocity of the material due to the gravity-induced acceleration. Hence it will be possible for the material to achieve a velocity close to the velocity of a free fall without admixture of air, allowing the roller press to be operated at higher roller velocities, thereby increasing its rate of production.
The applicant filing the present patent application has conducted tests with a shaft configured in accordance with the aforementioned guidelines, with a final cross section of 0.1 X 0.1 metres and a height of 5 metres, and has recorded

a material velocity which is close to 10 m/s without air admixture.

Claims
1. An apparatus for grinding of particulate material such
as cement raw materials, cement clinker or similar
materials, which apparatus comprises a roller mill (1) as
well as a shaft (11) for feeding particulate material to
the grinding zone (13) of the roller mill, the shaft (11)
being of a substantially vertical configuration and with a downwardly reduced cross-section characterized in that the
reduction of the shaft's cross-sectional circumference per height unit is downwardly decreasing.
2. An apparatus according to claim 1 the cross-sectional
area of the shaft as a function of the height of fall is in
accordance with the formula

A is the cross-sectional area
V is the volume flow
g is the gravity acceleration
h is the height of fall
A is within the range 0 and 0.2, preferably lower than 0.1,
3. An apparatus according to claim 1 characterized in that
the shaft is made up of at least 3 pyramidal or conical sections.
4. An apparatus according to claim 1 or 2 characterized in
that the reduction of the cross-sectional circumference of the shaft exhibits a continuous downwardly decrease.

5. An. apparatus according to claim 4 characterized in that the shaft is of a trumpet-shaped configuration.

6. An apparatus for grinding of particulate material substantially as herein described with reference to the accompanying drawing.

Documents:

abs-in-pct-2002-1115-che.jpg

in-pct-2002-1115-che-abstract.pdf

in-pct-2002-1115-che-claims filed.pdf

in-pct-2002-1115-che-claims granted.pdf

in-pct-2002-1115-che-correspondnece-others.pdf

in-pct-2002-1115-che-correspondnece-po.pdf

in-pct-2002-1115-che-description(complete)filed.pdf

in-pct-2002-1115-che-description(complete)granted.pdf

in-pct-2002-1115-che-drawings.pdf

in-pct-2002-1115-che-form 1.pdf

in-pct-2002-1115-che-form 26.pdf

in-pct-2002-1115-che-form 3.pdf

in-pct-2002-1115-che-form 5.pdf

in-pct-2002-1115-che-other documents.pdf

in-pct-2002-1115-che-pct.pdf

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Patent Number

212831

Indian Patent Application Number

IN/PCT/2002/1115/CHE

PG Journal Number

07/2008

Publication Date

15-Feb-2008

Grant Date

17-Dec-2007

Date of Filing

19-Jul-2002

Name of Patentee

F.L. SMIDTH & CO. A/S

Applicant Address

Vigerslev Alle 77, DK-2500 Valby

Inventors:

#	Inventor's Name	Inventor's Address
1	TOUBORG, Jorn	Engholmsparken 8, DK-4000 Roskilde

PCT International Classification Number

B02C 4/02

PCT International Application Number

PCT/IB01/00057

PCT International Filing date

2001-01-19

PCT Conventions:

#	PCT Application Number	Date of Convention	Priority Country
1	PA 2000 00147	2000-01-28	Denmark