WO2018206200A1 - Roller mill and method for operating a roller mill - Google Patents

Abstract

The invention relates to a roller mill (10) for comminuting a granular material, having a first mill roller (12) and a second mill roller (14) which are arranged opposite each other and can be driven in opposite directions. A mill gap (16) is formed between the mill rollers (12, 14), and at least one of the mill rollers (12, 14) has an edge element (18, 20) at an end region (22, 24, 26, 28) of the mill roller (12, 14), said edge element being designed such that the edge element extends over the mill gap (16) and at least partly covers the end face of the opposing mill roller (12, 14). A scraping element (42, 44) for at least partly removing material is arranged on the end region (22, 24, 26, 28) of the mill roller (12, 14) that is provided with an edge element (18, 20). The invention also relates to a method for operating a roller mill (10), said method having at least the step of: at least partly removing material from an end region of a mill roller (12, 14).

Description

 Roll mill and method for operating a roll mill

The invention relates to a roller mill with edge elements for comminuting granular material, and to a method for operating a roller mill.

Roll mills are usually used for comminution of regrind, such as limestone, clinker or similar rocks. In the comminution of regrind in a roll mill, it happens that regrind emerges laterally from the refining gap without having completely or completely passed through the refining gap. This leads to a reduction in the throughput of the machine and to increase the grinding circuit revolutions, which is associated with an enormous amount of energy.

For controlled influencing of the lateral outflow of ground material from a grinding gap formed between the grinding rollers of a roller mill, it is known to arrange edge elements on one of the grinding roller. Such a roller mill with edge elements is known, for example, from DE 20 2014 006 837 U l. On the edge elements acts an increased specific grinding pressure, which leads to a heavy load on the edge elements and thus often to wear or breakage of the edge elements. On this basis, it is an object of the present invention to provide a roller mill with edge elements, wherein the edge elements are exposed to lower loads and wear.

This object is achieved by a device having the features of the independent device claim 1, and by a method having the features of the independent method claim 11. Advantageous developments emerge from the dependent claims.

According to a first aspect, a roller mill for comminuting granular material comprises a first grinding roller and a second grinding roller, which are arranged opposite one another and can be driven in opposite directions, wherein a grinding gap is formed between the grinding rollers. At least one of the grinding rollers has an edge element at an end region of a grinding roller end, which is designed such that it extends over the grinding gap and at least partially covers the opposite grinding roller at the end. At the end portion of the grinding roller end provided with a peripheral element, a scraper element for removing material is arranged. The scraper element is used in particular for the at least partial removal of material attached to the end region of the grinding roller. The material is stripped by the scraper element during operation of the roller mill, with the grinding rollers rotating in opposite directions. The scraper element is preferably arranged at the end region of the grinding roller such that it does not touch the grinding roller. The end region of the grinding roller comprises, for example, the end face of the grinding roller, the grinding roller surface adjoining thereto and a region surrounding the grinding roller surface in which material deposits. By way of example, such a region has a height of more than or equal to 1.5 mm - 3 mm, in particular more than or equal to 2 mm - 5 mm, preferably 4 mm.

The edge element comprises in particular a circumferential circular ring, preferably a circular disk. In particular, the edge element is attached to the end face of the respective grinding roller, for example screwed or welded.

Between the edge elements and the end face of the respectively opposite grinding roller, an end-side gap is preferably formed in each case. An end-face gap prevents a collision of the edge element with the end region of the respectively opposite grinding roller in the case of a skew of the grinding rollers, wherein the opposed grinding rollers are not arranged parallel to each other.

The grinding rollers comprise in particular a roller base body, wherein the edge element is detachably connected to the roller base body of the respective grinding roller. The grinding roller preferably comprises a drive shaft for driving the grinding roller, on which the roller base body is arranged. A detachable arrangement of the edge elements on the roller body offers the advantage of a quick and easy replacement of the edge elements in case of wear. The edge elements are glued, soldered, welded or screwed, for example, on the roller body and preferably have wear protection. In particular, the wear protection is arranged on the pointing in the direction of the grinding gap inner surface of the edge element. Such wear protection includes, for example, a wear-resistant coating, such as build-up welding, wear protection elements or wear protection coatings. Preferably, the edge elements are formed of steel. During operation of the roller mill, a material layer usually forms on the surface of the grinding rollers, which causes an auto-wear protection of the roller surface. According to a finding of the inventors, this wear protection layer is thicker at the end regions of the roll ends, which are provided with edge elements, than at the remaining regions of the grinding rolls. This leads to an increased grinding pressure, by which the edge elements are more heavily loaded and wear or fail more frequently. By means of the scraper elements of the material structure is reliably prevented at the grinding roller ends on the edge elements. This minimizes the risk of increased wear and failure of the edge elements. According to a first embodiment, the scraper element is arranged such that it removes material attached to the edge element and / or at the end region of the grinding roller during operation of the roller mill. In particular, the scraper element is arranged stationary or movable relative to the rotatable grinding rollers, so that the grinding rollers rotate relative to the scraper element.

According to a further embodiment, the scraper element is arranged at a distance from the edge element and / or the end region of the grinding roller. Preferably, the distance between the scraper element and the edge element and / or the end region of the grinding roller more than or equal to 1.5mm - 3mm, in particular more than or equal to 2mm. A distance between the scraper element and the edge element and / or the end region of the grinding roller prevents contact of the scraper element with the grinding roller and thus reduces the wear of the scraper element.

The scraper element is arranged according to a further embodiment such that the distance between the scraper element and the edge element and / or between the scraper element and the end region of the grinding roller is adjustable. In particular, the thickness of the material layer at the end regions of the grinding rollers should not exceed a certain value of, for example, 1 to 30 mm, in particular 2 to 25 mm, preferably 5 to 10 mm. An adjustable distance ensures that the distance between the wiper element and the edge element and / or the end region of the grinding roller is kept constant during wear of the wiper element. In addition, the life of the wiper element is extended and replacement is not necessary in case of wear.

According to another embodiment, the roller mill has a stationary machine frame and the wiper element is attached to the machine frame. Of the For example, machine frame includes a plurality of frame members connected to bearing stones of the grinding rollers so that the grinding force acting on the grinding rollers is transmitted to the machine frame. In particular, a machine frame of a roller mill comprises a frame element which extends substantially in the axial direction of the grinding rollers and to which the scraper element is preferably attached. The scraper element extends from the machine frame in the direction of the grinding roller, in particular in the end region of the grinding roller.

The roller mill has, according to a further embodiment, at least two scraper elements, which are arranged at end regions of different roller ends of the grinding roller. The scraper elements are preferably arranged on opposite end regions of a grinding roller.

According to a further embodiment, the scraper element comprises a stripper plate, which is formed from a wear-resistant material, such as tungsten carbide. The stripper plate is arranged at the end of the stripper element facing the grinding roller and is in contact with the material to be scraped during operation of the roller mill. The Abtreifplatte is therefore exposed to high wear, with a wear-resistant material extends the life of the stripper plate.

The scraper element has according to another embodiment, an arm on which the stripper plate is releasably secured. For example, the stripper plate is clamped to the arm, or screwed. The stripper plate preferably projects beyond the arm in the direction of the grinding roller. A releasable attachment of the stripper plate of the stripper element allows easy replacement of the stripper plate, which is the most wear-intensive area of the stripper element. An exchange of the entire scraper element in the event of wear is therefore not necessary.

According to a further embodiment, each of the grinding rollers has at one end region of a roller end in each case an edge element which is designed such that it extends over the grinding gap and at least partially covers the opposite grinding roller at the end. In particular, the edge members are arranged diagonally opposite each other with respect to the end portions of the grinding rollers. The scraper element extends according to a further embodiment along an edge element. In particular, the scraper element extends in the radial direction of the grinding roller, for example parallel or obliquely to the edge element. The distance between the edge element and the Abtreifelement is preferably constant over the length of the Abstreiferelements.

The invention further relates to a method for operating a roller mill for comminuting granular material with a first grinding roller and a second grinding roller, which are arranged opposite one another and can be driven in opposite directions, wherein a grinding gap is formed between the grinding rollers. At least one of the grinding rollers has at one end region of a roller end an edge element, which is designed such that it extends over the grinding gap and at least partially covers the opposite grinding roller at the end. The method comprises at least the step of removing material from an end portion of a grinding roll. The material is preferably removed from the roll mill during operation of the roll mill with rotating grinding rolls.

The advantages described with respect to the grinding roll apply in procedural correspondence to the method of operating a roll mill for crushing granular material.

According to one embodiment, the material is removed by means of a scraper element. The material is according to a further embodiment of two provided with one edge element end portions

Description of the drawings

The invention is explained in more detail below with reference to several embodiments with reference to the accompanying figures.

Fig. 1 shows a schematic representation of a section of a roll mill in a plan view according to an embodiment.

FIG. 2 shows a schematic representation of a detail of a roller mill in a plan view according to a further exemplary embodiment. 3 shows a schematic illustration of a section of a grinding roller with wiper elements in a perspective intention according to an exemplary embodiment.

4 shows a schematic representation of a wiper element in a perspective view according to an exemplary embodiment.

FIG. 5 shows a schematic representation of the wiper element of FIG. 4 in a perspective rear view. 1 shows a roller mill 10 having a first grinding roller 12 and a second grinding roller 14, each having a substantially cylindrical roller body. The grinding rollers 12, 14 are arranged opposite each other and driven in opposite directions. Between the grinding rollers 12, 14 a Mahlspalt 16 is formed, which extends in the axial direction. The grinding rollers 12, 14 are arranged almost parallel to each other, so that the grinding gap 16 extending between the grinding rollers 12, 14 has a nearly constant width. Each of the grinding rollers 12, 14 further includes a drive shaft 30, 32 which extends along the central axis through the respective grinding roller 12, 14 and rotatably drives the grinding rollers about its central axis. The first and second grinding rollers 12, 14 have the same diameter, wherein the first grinding roller 12 is longer than the second grinding roller 14 may be.

The grinding rollers 12, 14 each have a first end portion 24, 28 and a second end portion 22, 26 which are disposed at opposite ends of the grinding roller. The first end portion 24 of the first grinding roller 12 is disposed opposite to the first end portion 28 of the second grinding roller 14 with the second end portion 22 of the first grinding roller 12 being disposed opposite to the second end portion 26 of the second grinding roller 14.

The first grinding roller 12 has two edge elements 18, 20, which are each attached to an end region of the grinding roller 12. The first edge member 18 is attached to the first edge portion 22 of the first grinding roller 12 and extends radially across the grinding gap 16 so as to partially cover the end face of the second grinding roller 14 at the first end portion 26. The second edge member 20 is attached to the second end portion 24 of the first grinding roller 12 and extends radially across the grinding gap 16 so as to partially overlap the end face of the second grinding roller 14 with the second end portion 28. Between the edge elements 18 and the respective end face of the second grinding roller 14 in each case an end-side gap 34, 36 is formed. The edge elements 18, 20 each comprise a circumferential circular ring, which can for example also consist of segments which is mounted in a manner not shown on the respective grinding roller 12, 14. For example, the edge elements 18, 20 are attached to the front side or on the outer circumference of the grinding roller, in particular the respective roller base body. On the outer periphery of the respective grinding roller 12, 14, for example, a circumferential groove is arranged, in each of which an edge element 18, 20 is arranged. The edge elements 18, 20 are made of a wear-resistant material, such as steel, and in particular have a wear-resistant coating on the inner side facing the grinding gap 16. The edge elements 18, 20 have for example a thickness of 10 mm to 100 mm and cover the opposite grinding rollers 12, 14 by about 2-20%, in particular 4-10%, preferably 3-6% of the roller diameter. FIG. 2 shows a further embodiment of a grinding roller with edge elements 18, 20, the grinding roller essentially corresponding to the grinding roller illustrated in FIG. 1, with the difference that in the exemplary embodiment of FIG. 2 each of the grinding rollers 12, 14 has one edge element 18 each , 20. The first and second grinding rollers 12, 14 have the same diameter and the same length and are formed substantially identical.

The edge elements 18, 20 are arranged diagonally opposite one another relative to the end regions 22 - 28 of the grinding rollers 12, 14. The first grinding roller 12 has at its first end region 24 an edge element 18 which extends in the radial direction over the grinding gap 16 and partially covers the end face of the second grinding roller 14 at the first end region 28. The second grinding roller 14 has, at its second end region 26, an edge element 20 which extends in the radial direction over the grinding gap 16 and partially covers the end face of the first grinding roller 12 at its second edge region 22. The second edge element 20 is arranged with respect to the first edge element 18 at the diagonally opposite end region 26 of the second grinding roller 14. The grinding rollers 12, 14 are arranged offset in the axial direction, so that between the first edge member 18 and the end face of the second grinding roller 14, a first end-side gap 34 is formed and between the second edge member 20 and the end face of the first grinding roller 12, a second end-side gap 36 is formed. The first and the second end-side gap 34, 36 each extend in the radial direction. FIG. 3 shows a detail of a first grinding roller 12 of the roller mill 10 according to FIG. 1 with a roller frame 40 on which the first and second grinding rollers 12, 14 are mounted. The roller frame 38 has a carrier 40 which extends in the axial direction of the grinding roller 12 and is arranged at a distance therefrom.

Two scraper elements 42, 44, which each extend in the direction of a respective end region of the grinding roller 12, are attached to the carrier 40 by way of example. The scraper elements 42, 44 are arranged at a distance from the grinding roller 12 and the edge element 18, 20 of the grinding roller 12 so that the scrapers do not touch the grinding roller 12 and the edge elements 18, 20. The first scraper element 42 is attached to a portion of the support 40 opposite the first end portion 22 of the grinding roller 12, the first scraper element 42 extending in the radial direction of the grinding roller 12 along the first edge member 18 and being oriented substantially parallel thereto. However, other orientations are possible. The second scraper element 44 is arranged in a corresponding manner on the second end region 24 and the second edge element 20 of the grinding roller 12. The scraper elements 42, 44 each extend along the inwardly facing surface of the edge elements 18, 20. The scraper elements 4, 44 are formed, for example, identical. Fig. 3 shows only the arrangement of the Abtreifelemente 42, 44 on a roll mill of FIG. L A roller mill 10 shown in FIG. 2 also has two scraper elements 42, 44. Each grinding roller 12, 14 of the roller mill 10 shown in FIG. 2 each has a scraper element 42, 44, which is attached, for example, to a respective carrier 40 of a roller frame 36 and according to the embodiment of FIG. 3 in the direction of a respective one edge element 18th 20 having end portion of the grinding roller 12, 14 extends.

4 shows an enlarged view of an exemplary wiper element 42, 44. The wiper element 42, 44 has a fastening plate 46 which, in the assembled position of the wiper element 42, 44, abuts the carrier 40 of the roller frame 38. The mounting plate has a plurality of mounting holes 48, which serve to attach the scraper element 42, 44 to the carrier 40, for example by means of screws.

On the mounting plate 46, an arm 50 is attached, which, for example, at an angle of about 30-60 °, in particular about 45 ° to the mounting plate 46 in the direction of not illustrated grinding roller 12, 14 extends. On the arm 50, a stripper plate 52 is attached, which is fastened by means of two screws 54 and a clamping plate 56 to the arm 50. The stripper plate extends parallel to the arm 50 beyond the end of the arm facing away from the mounting plate 46, so that the stripper plate 52 protrudes on the arm 50 in the radial direction of the grinding roller 12, 14. The stripper plate 52 is clamped between the clamping plate 56 and the arm 50 so that it is easily replaceable in case of wear. By way of example, the stripper plate 58 is arranged in a clamping receptacle 58, which is arranged between the clamping plate 56 and the arm 50 and is clamped by means of the clamping plate 56 and the screws 54.

The leading edge of the stripper plate 52 in the embodiment of Figure 4 extends at an angle to the surface of the respective grinding roller 12, 14 so that the distance between the stripper plate 52 and the surface of the grinding roller 12, 14 is smaller in the direction of the grinding roller end. The angle between the stripper plate 52 and the surface of the grinding roller 12, 14 is for example 45 ° - 135 °. It is also conceivable that the front edge of the

Stripper plate 52 extends substantially parallel to the surface of the respective grinding roller 12, 14, in particular in the axial direction of the grinding roller. The side surface of the stripper plate 52, as well as the side surface of the arm 50 extend along the respective edge member 18, 20. In particular, between the scraper element 42, 44 and the surface of the grinding roller 12, 14 a gap of more than or equal to 1mm, in particular more than or equal to 2 mm.

The mounting plate 46, the arm, the clamping receptacle 58 and the clamping plate 56 are formed for example of steel. The stripper plate is formed, for example, from a highly wear-resistant material, such as tungsten carbide.

5 shows a rear view of the wiper element 42, 44 of FIG. 4. The arm 50 has, for example, a substantially U-shaped profile, wherein the clamping plate 56 and the clamping receptacle 58 are attached to the arm 50 by means of screws 54 and nuts.

During operation of the roller mill 10, the edge elements 18, 20 prevent a lateral escape of material from the grinding gap 16. On the surface of the grinding rollers 12, 14, an autogenous wear protection is built up by the deposition of material. The scraper elements 42, 44 strip during rotation of the grinding roller 12, 14 at the end regions of the grinding roller 12, 14 deposited material and thus ensure that the autogenous wear protection layer does not rise above a certain thickness in the end regions of the grinding rollers 12, 14, so that the edge elements are reliably protected from high pressure by deposited material.

LIST OF REFERENCE NUMBERS

 10 roll mill

 12 first grinding roller

 14 second grinding roller

 16 grinding gap

 18 first edge element

 20 second edge element

 22 first end portion of the first grinding roller

24 second end portion of the first grinding roller

26 second end portion of the second grinding roller

28 first end portion of the second grinding roller

30 drive shaft of the first grinding roller

32 drive shaft of the second grinding roller

34 first frontal gap

 36 second frontal gap

 38 roller frame

 40 carriers

 42 first scraper element

 44 second scraper element

 46 mounting plate

 48 mounting holes

 50 arm

 52 stripper plate

 54 screws

 56 clamping plate

 58 clamp receiver

 60 mother

Claims

claims

A roll mill (10) for crushing granular material

 a first grinding roller (12) and a second grinding roller (14), which are arranged opposite one another and can be driven in opposite directions,

 wherein a grinding gap (16) is formed between the grinding rolls (12, 14), and at least one of the grinding rolls (12, 14) has an edge element (18, 18) at an end region (22, 24, 26, 28) of the grinding roll (12, 14) , 20) which is designed such that it extends over the grinding gap (16) and at least partially covers the opposite grinding roller (12, 14) at the end,

 characterized in that

 at the with an edge element (18,20) provided end portion (22, 24, 26, 28) of the grinding roller (12, 14) a scraper element (42, 44) for at least partially removing material is arranged.

2. Roll mill (10) according to claim 1, wherein the scraper element (42, 44) is arranged such that at the edge element (18, 20) and / or at the end region of the grinding roller (12, 14) deposited material in the operation of the roll mill (10) at least partially removed.

3. Roll mill (10) according to one of the preceding claims, wherein the scraper element (42, 44) to the edge element (18, 20) and the end region of the grinding roller (12, 14) is arranged spaced.

4. Roll mill (10) according to one of the preceding claims, wherein the scraper element (42, 44) is arranged such that the distance between the scraper element (42, 44) and the edge element (18, 20) and / or between the scraper element ( 42, 44) and the end region of the grinding roller (12, 14) is adjustable.

A roll mill (10) according to any one of the preceding claims, wherein the roll mill (12, 14) has a stationary machine frame (38) and the wiper member (42, 44) is attached to the machine frame (38).

6. Roll mill (10) according to one of the preceding claims, wherein the roll mill (10) has at least two scraper elements (42, 44) which are arranged at end regions of different roll ends of the grinding roll (12, 14).

A roll mill (10) according to any one of the preceding claims, wherein the stripper element (42, 44) comprises a stripper plate (52) formed of a wear resistant material such as tungsten carbide.

A roller mill (10) according to any one of the preceding claims, wherein the wiper member (42, 44) comprises an arm (50) to which the wiper plate (52) is releasably secured.

9. roll mill (10) according to any one of the preceding claims, wherein each of the grinding rollers (12, 14) at one end region (22, 24, 26, 28) of a roller end each having a peripheral element (18, 20), which is designed such that it extends over the grinding gap (16) and at least partially covers the opposite grinding roller (12, 14) at the front side.

10. Roll mill (10) according to one of the preceding claims, wherein the scraper element (42, 44) along an edge element (18, 20).

11. A method for operating a roller mill (10) for comminuting granular material with a first grinding roller (12) and a second grinding roller (14) which are arranged opposite and can be driven in opposite directions, wherein between the grinding rollers (12, 14) a Mahlspalt ( 16) is formed and

 wherein at least one of the grinding rollers (12, 14) at one end region (22, 24, 26, 28) of a grinding roller (12, 24) has an edge element (18, 20) which is formed so as to extend over the grinding gap ( 16) and the opposite grinding roller

(12, 14) at least partially covered on the front side,

 the method comprising at least the step:

 Removing material from an end portion of a grinding roll (12, 14).

12. The method of claim 11, wherein the material by means of a scraper element (42, 44) is at least partially removed.

13. The method according to any one of claims 11 or 12, wherein the material at two with one edge element (18, 20) provided end portions