EP0731210A2 - Refiner and refining tool for refining suspended fibre material - Google Patents

Abstract

A machine for milling suspended fibrous material, esp. paper or cellulose fibres, comprises a case (1) with openings for material input and discharge (5,6) at least two carriers for milling tools, i.e. powdered rotor (2) and stator (3) suitable for assembly of tools into at least one working (7) and one complementary second surface (8) facing each other to form a milling gap (9) through which the material flows. at least one surface carries edge-shaped projections or blades (10,11) between which are duct-like grooves for carrying at least some material from the interior outwards. The material is mechanically worked by relative movement of the surface. There are at least three blades one after the other as viewed in the groove or flow direction with intervening open spaces (a', a") of 8mm. min.. Also claimed is the milling tool for the machine where the tools are arranged in pairs to form the two complementary milling surfaces carrying many milling blades arranged as above.

Description

The invention relates to devices for grinding suspended fibrous material according to the preamble of claim 1 or 5.

Grinding tools of the type mentioned are often also called sets and installed in grinding machines - so-called refiners. Such grinding machines have at least one rotor and at least one stator with either disc-ring or truncated cone-shaped surfaces on which the grinding tools or fittings are attached, so that grinding gaps can form between them. The grinding tools considered here have webs and grooves on the work surfaces, which is why one speaks of "knife sets". In technical practice, an annular grinding surface is often produced by assembling a number of identical ring segments until a full circumference with a center point common to all segments results.

A significant portion of the operating costs of pulp pulping in the pulp and paper industry comes from energy costs. Therefore, it has always been an effort to build and operate such devices in such a way that - based on the desired success - a not too high energy input is needed. Since the objectives of fiber treatment differ depending on the application, the evaluation of the grinding effect is also different. In many cases, the energy used is based on the grinding success so that either the size per ton of fiber and increase in grind or kWh / per ton of fiber and increase in strength is given. The comparability of such values otherwise presupposes the same conditions. In particular, it is not possible to reduce the grinding costs by using less energy, on the other hand but despite a sufficient increase in the degree of grinding, the fiber material treated in this way no longer meets the quality requirements.

A grinding tool provided for the grinding of wood pulp is shown in DE-OS 25 22 349. It is a knife set with a special inner ring section, which serves to break up the incoming wood pulp, not the intended change in the fibers themselves during grinding. The refining device shown in DE-OS 26 09 727 is primarily tailored to the requirements, which are made with mechanical wood pulp. Therefore, the actual grinding zone is preceded by an internal "refine zone" in which the fiber material is broken down almost to the individual fiber. The actual grinding of the fibers only then takes place in the radially outer grinding zone. The US 5,200,038, in which two rotors provided with different drives are provided with very special grinding tools, leads even further in the direction of dividing the processing zones within a machine. Again, the incoming material (pulp) is first fed to a pre-zone, which here only acts as a fluidization zone.

Despite these efforts to improve the pulp mill, it is still desirable to further reduce the amount of milling energy required.

It is therefore an object of the invention to provide devices of the type specified, with which the energy used for grinding is less than before for the desired grinding success.

This object is achieved by the features of claims 1 or 5. The following subclaims describe particularly advantageous configurations.

The invention thus creates grinding devices in which the energy used can be better used for grinding the fibrous material. It has been shown that it is not only the increase in grinding degree that can be achieved more economically, but that a relatively good preservation of the fiber lengths and fiber strengths is possible with the grinding. As already indicated, the assessment of the effect will always be based on the grinding developments that have been achievable to date, which is why it does not make sense to generally specify a fixed numerical value here. The investigations on the subject of the invention show in any case a significant reduction in the energy required, without sacrificing fiber quality.

A significant innovation compared to the prior art is an improved flow guidance in the gap between the rotor and the stator through which the pulp suspension flows during the operation of the grinding device. In the area of the working surface of the rotor or stator, the fibers are changed by strong forces, with only a very small distance between the working surfaces being set during the grinding process. Since there are several strips one behind the other, viewed in the direction of the channels, on the work surface defined in this way, each of which has a spacing of at least 8 mm, according to the invention, there are several intermediate zones in which the suspension from the grinding area in front of it, that is to say already ground, is taken up and can then be fed to the subsequent grinding area. Such an intermediate zone presumably has a double use, since it promotes both the desirable partial recirculation of the suspension that has already been ground to the grinding area in front of it and the smoothing of the flow in the subsequent grinding area. This can improve the grinding result, in particular the grinding can be more uniform. Such intermediate zones can be created by grooves which e.g. are circular. Polygonal-shaped grooves are also particularly advantageous, since they reduce the sometimes somewhat critical wear of grinding tools in the groove area.

In special cases, a special strip-free area can additionally be created, through which the suspension first flows before it comes into the grinding area of the grinding machine or grinding tool under consideration. So before or when the suspension enters the knife area of the grinding device there is a rotation zone provided that borders on a rotating surface, but in which there are no webs on at least one side. No grinding takes place in this annular zone. A possible reason for the further improvement in economy could be the equalization of the suspension flow as it enters the grinding zone. Said annular zone can be formed by designing the actual grinding machine or, according to claim 9, in the radially inner zone of the grinding tools themselves.

Fig. 1

geschnittene Seitenansicht eines erfindungsgemäß ausgeführten Scheibenrefiners;

Fig. 2

Ausschnitt von Fig. 2;

Fig. 3

Diagramm der Mahlentwicklung;

Fig. 4 bis 6

weitere Ausführungsformen der Mahlwerkzeuge;

Fig. 7

einen erfindungsgemäßen Kegelrefiner;

Fig. 8

Aufsicht (Segment) auf ein erfindungsgemäßes Mahlwerkzeug;

Fig. 9

Aufsicht (Segment) auf ein weiteres erfindungsgemäßes Mahlwerkzeug.

The invention is described and explained with reference to schematic drawings. Show:

Fig. 1

sectional side view of a disc refiner designed according to the invention;

Fig. 2

Section of Fig. 2;

Fig. 3

Diagram of grinding development;

4 to 6

further embodiments of the grinding tools;

Fig. 7

a cone refiner according to the invention;

Fig. 8

Top view (segment) of a grinding tool according to the invention;

Fig. 9

Top view (segment) of a further grinding tool according to the invention.

Fig. 1 shows the subject of the invention in the form of a disc refiner. A part of the housing 1, the rotor 2 and the stator 3 can be seen. The rotor and stator serve as grinding tool carriers. The suspended fibrous material can be fed in through the inlet opening 5 and discharged through the outlet opening 6. In the form shown here, the rotor 2 is axially fixed, while the stator 3 is axially movable relative to the rotor 2, being prevented from rotating by bolts 15. The rotor 2 has a working surface 7 and the stator 3 has a complementary further working surface 8. A grinding gap 9 is formed between the two working surfaces. In the area of the work surfaces 7, 8 there are strip-shaped elevations 10 on the rotor 2 and strip-shaped elevations 11 on the stator 3. The illustration is chosen here so that the strip-shaped elevations 10 and 11 are cut in the upper part and in the lower part are drawn uncut. It can be seen that on each side of the grinding gap 9 three strip-shaped elevations 10 and 11 are arranged radially one behind the other, ie are interrupted by grooves 16. In addition, they extend inward less on the stator side than on rotor 2.

FIG. 2 shows a section of the subject matter of FIG. 1 with part of the stator 3. The dimensions a 'and a' 'between the strip-shaped elevations 11 can be seen as well as the dimension a by which the base area 14 of the grinding tool is radial extends further inwards than the elevation 11. The elevation has the height c above the base area 14.

3 schematically shows a diagram which shows the grinding development M as a function of the grinding energy E. In the prior art, the grinding development proceeds according to curve A2, while a faster grinding development, curve A1, can be achieved with the aid of the invention. Of course, the qualitative values depend very much on the substance used, and the diagram only serves to illustrate the benefits that can be achieved.

4 and 5, further embodiments are basically sketched using a disc refiner. The interruptions of the strips by grooves can namely be on the stator side (FIG. 4), on the rotor side (FIG. 5) or - as already shown in FIG. 1 - on both sides. The object on FIG. 6 differs from that of FIG. 2 in that not only the actual strip 11, but also the grinding tool mounted on the stator 3 itself is interrupted by grooves. Of course, the principle shown in FIG. 6 can also be applied to the other combinations according to FIG. 1, 4 or 5.

Even if the use of the invention on grinding machines equipped with disks or on the associated grinding tools is certainly particularly useful, the advantages can also be achieved with cone refiners, in particular steep taper refiners.

Fig. 7 outlines a cone refiner, in which the elevations 10 lying on the working surface of the rotor 2 are interrupted by grooves. In contrast to what is shown here, in other cases the stator 3 can also have elevations 11 with interruptions.

FIG. 8 shows the top view of a typical work surface found on disc refiners with a plurality of elevations 10 with a width b, which are of different designs here, and the channel-like grooves 12 lying therebetween. Furthermore, there are grooves 16, namely annular grooves, with the dimensions a ', a' '. The elevations 10 are also shorter by the internal dimension a than the base area 13. This representation is to be understood as part / segment of the entire circumference. As is known, the complementary working surface usually has the same pattern with regard to the elevations, with what has already been said in connection with FIGS. 1 and 4-6 for the existence of the free dimensions a, a ', a' '. The complementary work surface can also be designed very differently, e.g. have different knife angles, be flatly porous or have a pimple or hole pattern.

The grinding tool according to FIG. 9 is similar to that of FIG. 8, but has two polygenic recesses 17, which results in three grinding areas 18, 18 'and 18''lying one behind the other. Here only one of the segments of 45 ^{o is} drawn, from which an annular set can be assembled.

Claims (19)

Grinding machine for grinding suspended fibrous material, in particular paper and / or cellulose fibers, consisting of a housing (1) with inlet and outlet openings (5, 6) for the fibrous material, with at least two grinding tool carriers, in particular a drivable rotor (2) and one Stator (3), suitable for attaching grinding tools to create at least one working surface (7) and a complementary further working surface (8), which are positioned to form a grinding gap (9) through which the fibrous material can flow, at least one working surface (7 or 8) has a plurality of strip-shaped elevations (10, 10 ', 10'', 11), so-called knives, between which there are channel-like grooves (12), so that the fibrous material is at least partially guided through them from the inside to the outside and one mechanical processing of the fibrous material through the relative movement of two complementary work surfaces (7 and 8) can be done
characterized,
that, on at least one side of the grinding gap (9), at least three strip-shaped elevations (10, 10 ', 10'', 11) of the work surface intended for fiber grinding, viewed in the direction of the channels, are arranged one behind the other and that, viewed in the direction of flow of the fiber material, consecutive elevations (10, 10 ', 10'', 11) have a clearance with a clearance (a', a '', a ''') of at least 8 mm. Grinding machine according to claim 1,
characterized,
that on at least one side of a grinding gap (9) the radially innermost strip-shaped elevations (10, 10 ', 10'', 11) of the working surface (7, 8) intended for fiber grinding are a free dimension (a) of at least 8 mm inward less than the associated grinding tool holder. Grinding machine according to claim 1 or 2,
characterized,
that the mutually complementary grinding tool carriers have essentially a disk-like shape. Grinding machine according to claim 1 or 2,
characterized,
that the mutually complementary grinding tool carriers have a substantially frustoconical shape. Grinding tool for grinding suspended fibrous material, in particular paper and / or cellulose fibers, in grinding machines with mutually movable, opposite, essentially rotationally symmetrical grinding tool carriers, in particular on a rotor and on a stator, on which grinding tools can be attached in pairs so that they have at least one Form a pair of complementary work surfaces (7, 8) to form a grinding gap (9) through which the fibrous material can flow, and the working surface (8) of at least one grinding tool on its side facing the fibrous material to be treated during operation has a plurality of strip-shaped elevations (10, 10 ', 10 '', 11), so-called knife, has over its base (13, 14), between which there are channel-like grooves (12), so that the fibrous material is at least partially guided through these grooves from the inside out and mechanical processing of the Fibrous material by di e relative movement of two complementary work surfaces (7, 8) can take place,
characterized,
that at least three strip-shaped elevations (10, 10 ', 10'', 11) of the work surface intended for fiber grinding, viewed in the direction of the channels, are arranged one behind the other, whereby, viewed in the direction of flow of the fiber material, successive elevations (10, 10', 10 '', 11) with a distance have a clearance (a ', a'',a''') of at least 8 mm. Grinding tool according to claim 5,
characterized,
that the radial extension of the strip-shaped elevations (10, 10 ', 10'', 11) separated by spacing with the clearance (a', a '', a ''') is at most 100 mm. Grinding tool according to claim 6,
characterized,
that the radial extension of the strip-shaped elevations (10, 10 ', 10'', 11) separated by spacing with the clearance (a', a '', a ''') is at most 60 mm. Grinding tool according to claim 5, 6 or 7,
characterized,
that the radial extension of the strip-shaped elevations (10, 10 ', 10'', 11) separated by spacing with the clearance (a', a '', a ''') is at most twenty times the width (b) of the elevations (10 , 10 ', 10'', 11). Grinding tool according to claim 5,
characterized,
that the strip-shaped elevations (10, 10 ', 10'', 11) of the working surface (7, 8) extend to the inside in a clearance (a) of at least 8 mm less than the base surface (13, 14) of the grinding tool extends. Grinding tool according to one of claims 5 to 9,
characterized,
that the base has an essentially annular shape or that of an annular segment. Grinding tool according to one of claims 5 to 9,
characterized,
that the bases have a substantially frustoconical shape. Grinding tool according to one of claims 5 to 11,
characterized,
that the height of the strip-shaped elevations (10, 10 ', 10'', 11) above the base (13, 14) of the grinding tool is between 2 and 20 mm. Grinding tool according to claim 12,
characterized,
that the height of the strip-shaped elevations (10, 10 ', 10'', 11) above the base (13, 14) of the grinding tool is between 2 and 8 mm. Grinding tool according to one of claims 5 to 13,
characterized,
that the width (b) of the strip-shaped elevations (10, 10 ', 10'', 11) of the working surface of the grinding tool intended for fiber grinding is between 2 and 30 mm. Grinding tool according to one of claims 5 to 14,
characterized,
that the width of the channel-like grooves (12) between the strip-shaped elevations (10, 10 ', 10'', 11) of the working surface of the grinding tool intended for fiber grinding is between 3 and 20 mm. Grinding tool according to claim 10,
characterized,
that consecutive strip-shaped elevations (10, 10 ', 10'', 11) of the working surface intended for fiber grinding are separated by a groove (16) which is essentially circular in shape around the center of the base surface or circle belonging to the segment and has approximately the same height as the strip-shaped elevations (10, 10 ', 10'', 11). Grinding tool according to claim 10,
characterized,
that successive strip-shaped elevations (10, 10 ', 10'', 11) of the work surface intended for fiber grinding are separated by a recess (17, 17') which is essentially polygonal and symmetrical to the center of the base surface and is approximately the same height as has the strip-shaped elevations (10, 10 ', 10'', 11). Grinding tool according to claim 11,
characterized,
that consecutive strip-shaped elevations (10, 10 ', 10'', 11) are separated by a recess which is essentially circular and symmetrical around the center line of the truncated cone and is approximately the same height as the strip-shaped elevations (10, 10', 10 '', 11). Device according to one of the preceding claims,
characterized,
that the clearance (a, a ', a'',a''') is between 8 and 30 mm.

Images