DE102007022020A1 - Refiner for producing lignocellulose-based charging material, has turbulence producing unit producing turbulences in fluid solid flow, and arranged in section of material discharge opening lying upstream of valve - Google Patents

Abstract

The refiner (1) has a cutting tool (14) forming a mill gap within a housing (3). The mill gap rotates around an axle relative to each other. A lignocellulose-based charging material is given in the form of fluid solid flow to the mill gap, processed in the course of a passage by the mill gap and extracted from the housing over a material discharge opening (17). The material discharge opening has a valve for controlling fluid solid flow. A turbulence producing unit produces turbulences in fluid solid flow, and is arranged in a section of the material discharge opening lying upstream of valve.

Description

The The invention relates to a device for processing lignocellulose-containing Feedstock according to the preamble of the claim 1.

Of the Preparation of lignocellulosic material for the production of Wood fibers or pulp comes a great economic Meaning too. Wood fibers serve as starting material, for example for the production of wood fiber materials; cellulose is needed among other things for the production of paper, but also in the food and drug industry. Among lignocellulosic Material is primarily wood, but also straw, bagasse, annual plants, To understand flat bars and the like. For the production high-quality cellulose products, such as papers, it is necessary from the lignocellulosic fibers, the ingredients Lignin and hemicellulose. In addition to mechanical procedures for the extraction of pulp from these materials are also chemical Method and thermomechanical method known.

at the implementation of a corresponding treatment process a processing station is formed by so-called refiners. There is the already pretreated lignocellulosic material under Pressure and steam passed through a processing zone where between relative to each other rotating machining tools a defibration and thus a fiber pulping is effected. For the quality the fibers produced or the pulp produced while adhering to given process parameters during the treatment very important. Is the residence time of the cellulosic Materials in the refiner too short, so the digestion is not intense enough and there are still high levels of lignin and hemicellulose in the feed. On the other hand is too long residence time in the refiner the pulp damaged. Both have a disadvantageous effect on the further processing of the cellulose in subsequent processing steps not least the quality of the final product suffers. An unimpeded flow through the feed by a refiner is therefore of great importance.

From the US 3,661,328 is a multi-stage plant for the treatment of wood to a fibrous end product described. Among other things, the plant comprises a refiner with a pressure-resistant drum-shaped housing, in which two refiner disks, axially opposite one another, forming a grinding gap, obtain the digestion of the feedstock. The feed material is fed in the region of the drive shaft axially through openings in one of the refiner discs and then digested in the radial passage through the grinding gap. In the annular space surrounding the disks, the feed material finally reaches a radial material outlet via which it is drawn off from the refiner. Since the refiner is operated under vapor pressure, the material outlet is followed by a blow valve, the valve opening of which is controllable for controlling the flow of fluid solids out of the refiner and thus of the vapor pressure within the refiner.

When problematic in the operation of such refiner, the transition has from the material outlet to the blow valve. By the sudden Narrowing of the flow cross-section in the region of the glass valve occur in the immediate area in front of the blow valve deposits moist fibrous material, on the one hand a free unobstructed Obstruct flow and on the other hand in irregular Solving time intervals as clumping and so cause for malfunctions.

In front In this context, the object of the invention is to provide a deposition-free derivation of the processed material from generic devices to reach.

These The object is achieved by a device having the features of the patent claim 1 solved.

advantageous Embodiments emerge from the subclaims.

Of the The basic idea of the invention is, by targeted production a turbulent flow in the transition area in front of the blowing valve to ensure that the entire line volume including the corner areas in front of the blowing valve of one Flow with sufficient drag force is applied and so deposits of the digested material can be prevented. These Zone therefore remains free of accumulation of material, causing the Operational safety of a device according to the invention elevated. In addition, cleaning and maintenance intervals be chosen larger, giving a total of to a more economical operation of an inventive Device contributes.

to Implementation of this idea is a preferred solution the flow cross-section of the material outlet widens in the flow direction. Such training the material outlet does not restrict the flow cross-section which could interfere with fluid flow and is also easier to manufacture than for example the Flow influencing internals.

In a further development of such an embodiment, it is provided to design the widening cone-shaped or trumpet-shaped. In this way creates a smooth, continuous inner surface that is very easy to maintain and clean.

A other embodiment of the invention, however, is by characterized a gradual course of expansion, which is due to the simpler production proves to be advantageous. In addition, be on created this way tear-off edges, the vortex formation at a predetermined Create a spot. This allows specific influence on the distribution the vertebrae are taken within the widening. Another Possibility of influencing the vortex formation exists therein, the axial length and / or radial height to vary the individual stages or constant form.

The Invention can be both a tangential than also realize radial material outlet and is therefore very diverse used. In the presence of both a radial and a tangential Auslass also offers the possibility with only one device according to the invention two to load different production lines.

One Another advantage opens up from the possibility retrofit existing devices with the invention.

A sees further advantageous embodiment of the invention before, in the relevant area in addition nozzles for the injection of fluids, preferably to arrange water. by virtue of the high temperatures inside the refiner housing respectively Material outlet leads to injection of liquid to a sudden transition of the liquid into the vapor phase. The associated sudden volume expansion causes it to break off any deposits that may be present and incrustations and thus contributes in addition to Solution of the task at.

The Invention is described below with reference to an illustrated in the drawings Embodiment explained in more detail.

It shows

1 a vertical section through a device according to the invention along the in 2 illustrated line II.

2 a cut / view through the in 1 illustrated device along the local line II-II.

3 a section through the transition region between the material outlet and blow valve on a larger scale and

4 one 3 corresponding section in an embodiment with injection nozzles.

In the 1 and 2 is a device according to the invention using the example of a refiner 1 shown. The refiner 1 has a drum-shaped around a horizontal axis of rotation 2 arranged housing 3 that has a grinding room 4 encloses. The rotation axis 2 is not identical to the longitudinal axis of the housing 3 , resulting in an eccentric arrangement of the axis of rotation 2 in the case 3 results. Both at the front 5 as well as back 6 of the housing 2 are to the pressure-resistant training ribs 7 arranged.

The material task takes place via an axis 2 Concentric opening in the front 5 of the housing 3 , There you can see the end of a jacket pipe 8th a feed screw, not shown, extending into the grinding chamber 4 extends to near the mid-plane. The jacket tube 8th is fixed to the case 3 connected. On the end of the jacket pipe 8th sits also to the axis 2 concentric support ring 9 , which also has rigid fasteners on the housing 3 is attached. The support ring 9 take with him the grinding room 4 facing surface to the axis 2 concentrically arranged annular refining tool 10 on.

The backside 6 of the housing 3 owns in the area of the axis 2 also a concentric opening, with a shaft passage 11 for a horizontal drive shaft 12 of which one is only the grinding room 4 associated end sees, while the other end is connected to a rotary drive, not shown. On the illustrated end of the drive shaft 12 rotatably seated a support disc 13 , at whose grinding room 4 facing surface turn an annular refining tool 14 is attached. The refining tools 10 and 14 lie in this way while maintaining a through the special design of the refining tools 10 and 14 radially outwardly tapering Mahlspalts 15 axially and concentrically opposite.

In the central area around the axis of rotation 2 takes the support disc 13 a distributor disc 16 on, the opening of the jacket pipe 8th the feed screw is directly opposite to the axial and whose radial bars the deflection and acceleration of the axially incoming feed material in the direction of the grinding gap 15 accomplish.

The lower area of the housing 3 has a first material outlet 17 that is tangent to the inner circumference of the grinding chamber 4 out of the case 3 leads to the most compact design of the refiner 1 in Duchström direction 18 has a slope with respect to a horizontal. In flow direction 18 joins the material outlet 17 a blow valve 19 at, whose flow opening 26 via an actuator 20 is adjustable.

In the lower vertex of the housing 3 one also sees an additional radially oriented material outlet 21 , which also has a blow valve 21 with actuator 22 followed. From the two material outlets 17 and 21 only one is ever commissioned.

In operation of the illustrated refiner 1 the feed material is conveyed via the feed screw within its jacket tube 8th axially in the central region of the grinding chamber 4 promoted. There it is from the strips of the distribution disc 16 detected and in the direction of the grinding gap 15 radially accelerated. As a result of the rotation of the refining tools 14 opposite the refiner tools 10 it comes to the desired digestion of Aufgabeguts, by the radially outwardly tapering Mahlspalt 15 In the ideal case, all fibers contained in the feed are becoming increasingly intensive.

After the radial exit of the thus processed feedstock from the grinding gap 15 this gets into the ring the grinding tools 10 and 14 surrounding channel, due to the eccentric arrangement of the axis of rotation 2 one in the direction of the outlet 17 increasing flow cross-section provides. In the annular channel, the finished material finally reaches the tangent from the housing 3 leading material outlet 17 and there further through the valve opening 26 of the blow valve 19 in the downstream area of the piping system 25 ,

3 shows an enlarged section in the region of the tangential material outlet 17 acting as a tubular conduit in the housing 3 is integrated. The conclusion of the material outlet 17 forms an annular flange incorporated in the housing surface 24 , for the flush mounting of the blow valve 19 is determined. Downstream of the blow valve 19 closes the line system 25 at. Out 3 clearly shows that the flow cross-section of the material outlet 17 is significantly larger than the valve opening 26 of the glass valve 19 , To avoid deposits in the material outlet 17 in the area immediately before the blowing valve 19 , Therefore, this zone is designed as a vortex zone.

As swirling agent shows 3 a step-shaped expansion 27 , which consists of several, in the present example four, cylindrical longitudinal sections 28 . 28 ' . 28 '' . 28 ''' composed, whose diameter in the flow direction 18 each rises abruptly. In this way, a gradation of successive peripheral surfaces 29 and ring surfaces 30 , which in the transition area vortex-generating demolition edges 31 form and thus create a turbulent flow, the deposits on the inner wall of the material outlet 17 Prevents or dissolves existing encrustations.

4 is essentially the same as in 3 illustrated and described embodiment of the invention with the difference that the housing 3 in the area of the material outlet 17 drilling 32 and 33 has, in the nozzles 34 and 35 are used. While the nozzle 34 in the area before the stepped expansion 27 opens, is the nozzle 35 in the area of the step-shaped widening 27 arranged. With the nozzles 34 and 35 can be a fluid, preferably water, in the material outlet 17 inject. Due to the high temperatures prevailing there, the liquid suddenly passes into the gas phase, whereby any deposits which may be present from the inner wall of the material outlet are formed, with the volume expansion commencing 17 be solved.

QUOTES INCLUDE IN THE DESCRIPTION

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Cited patent literature

• - US 3661328 [0004]

Claims (16)

Device for processing lignocellulosic feedstock, with within a housing ( 3 ) about an axis ( 2 ) rotating relative to each other, a grinding gap ( 15 ) forming processing tools ( 10 . 14 ), wherein the feed material as Fluidfeststoffströmung the Mahlspalt ( 15 ), as it passes through the grinding gap ( 15 ) and then via a material outlet ( 17 . 21 ) out of the housing ( 3 ), the material outlet ( 17 . 21 ) a valve ( 19 . 22 ) for regulating the device ( 1 ) leaving fluid flow, characterized in that in the upstream of the valve ( 19 . 22 ) lying portion of the material outlet ( 17 . 21 ) Means for generating turbulence in the fluid solids flow are arranged. Apparatus according to claim 1, characterized in that the means for generating turbulence, a widening of the flow cross-section of the material outlet ( 17 . 21 ) in the flow direction ( 18 ). Device according to claim 2, characterized in that that the expansion is a cone or trumpet-shaped History has. Device according to claim 3, characterized in that that the opening angle of the expansion is at least 12 degrees is. Device according to claim 2, characterized in that the widening has a stepped course ( 27 ) having. Apparatus according to claim 5, characterized in that the individual stages of cylindrical sections ( 28 . 28 ' . 28 '' . 28 ''' ) of different diameters are formed. Apparatus according to claim 5 or 6, characterized that the individual stages have an equal axial length. Device according to one of claims 5 to 7, characterized in that the individual stages have the same have radial height. Device according to one of claims 5 to 8, characterized in that the steps of peripheral surfaces ( 29 ) and ring surfaces ( 30 ) are formed, at the resulting demolition edges ( 31 ) Vertebrae are formed. Device according to one of claims 1 to 9, characterized in that the material outlet ( 17 ) tangentially out of the housing ( 3 ) opens. Device according to one of claims 1 to 10, characterized in that the material outlet ( 17 ) in the flow direction ( 18 ) is inclined with respect to a horizontal. Device according to one of claims 1 to 11, characterized in that the material outlet ( 21 ) radially out of the housing ( 3 ) opens. Device according to one of claims 1 to 12, characterized in that the valve ( 19 . 22 ) directly on or near the outlet of the material outlet ( 17 . 21 ) out of the housing ( 3 ) is arranged. Device according to one of claims 1 to 13, characterized in that in the region of the means for generating turbulence at least one nozzle ( 34 . 35 ) for injecting a fluid, preferably water. Device according to one of claims 1 to 14, characterized in that the housing ( 3 ) is pressure-resistant. Device according to one of claims 1 to 15, characterized in that the axis of rotation ( 2 ) eccentric to the longitudinal axis of the housing ( 3 ) is arranged.