WO2007090599A1

WO2007090599A1 - Device and method for feeding damp and/or sticky products, in particular cellulose, into an air vortex mill

Info

Publication number: WO2007090599A1
Application number: PCT/EP2007/000976
Authority: WO
Inventors: Michael Andreae-Jäckering
Original assignee: Altenburger Maschinen Jäckering GmbH
Priority date: 2006-02-10
Filing date: 2007-02-06
Publication date: 2007-08-16
Also published as: DE102006006096A1

Abstract

The invention relates to a device (3) for feeding damp and/or sticky products, preferably cellulose, into an air vortex mill (1); to eliminate difficulties when feeding in the products and to improve the properties of the end product, it is proposed that the component parts of the feeding device (3) are a cylindrical container (10), a stirring mechanism (13) which is arranged in the container (10) and which has a central shaft (21), and a screw conveyor (4) with a screw (14) and a screw cylinder (15), that the screw conveyor (4) is arranged laterally alongside the shaft (21) of the stirring mechanism (13) in the region of the bottom (23) of the container (10), and that the screw cylinder (15) and the container (10) are connected to one another via an opening (24).

Description

Apparatus and method for feeding moist and / or sticky products, in particular cellulose, in an air vortex mill

The mill-drying of methyl cellulose on air vortex mills of the ULTRAROTOR type is known from EP 1 082 174 B1. The products are mainly methylcellulose (also called cellulose ethers) and similar products, such as carboxymethylcellulose (CMC) and other cellulosic products.

Usually, the cellulose comes from a granulator or similar aggregate in which it is premixed to humidities between 40% and 75%. In this state, it is extremely sticky, so that their feeding into the fluidized air mill for comminution and simultaneous drying is difficult.

In general, two feeding variants are known in the case of air-jet mills of the ULTRA-ROTOR type:

- Infeed by screw directly into the grinding chamber: This type of feed is always somewhat irregular, because the product comes irregularly from the previous process stage and the screw is usually designed so that it brings every incoming product immediately into the grinding chamber. This results in fluctuations in the current consumption of the ULTRA-ROTOR and thus also partially high loads, in extreme cases even overloading of the mill, as well as strong temperature fluctuations. Accordingly, the end product fails. Since the mill is sometimes more and less filled, the final product is not homogeneous in particle size distribution.

- Infeed by auger, sluice or other dosing devices into the air intake: Although this type of supply compensates for the longer distance fluctuations in the amount of material partly, but has the disadvantage that the wet and sticky product may be in the intake duct or sticks around the shaft in the footwell of the ultra-rotor sticking, possibly also forms blockages and thus causes a standstill in the mill from time to time, since this room can be cleaned manually only at standstill. After comminution and drying in the fluidized air mill, the cellulose is eliminated via a filter cyclone. The result is a free-flowing product in particle sizes between 20μ and 500μ and with bulk densities between 200 g / l and 400 g / l. It is difficult to achieve bulk densities of well over 300 g / l or even 400 g / l.

The invention has for its object to design a device or a method according to the invention in such a way that improved product properties can be achieved and the difficulties described in the feed of the product to be subjected to the drying process no longer occur.

Due to the characterizing features of the claims, this object is achieved and achieved further improvements in the mill drying of cellulose on air vortex mills type ULTRA-ROTOR. Compared to the known Einspeisevarianten the fiction, contemporary solution is easier and less expensive. It can be explosion-proof, without expensive measures, e.g. up to 10 bar by the choice of suitable wall thicknesses and components - be formed. Finally, the feed method according to the invention has the surprising effect that bulk densities of well over 400 g / l can be achieved in the end product.

Further advantages and details of the invention will be explained with reference to embodiments shown in Figures 1 to 5. Show it

FIGS. 1 and 2 show two views of an air vortex mill equipped with the feed module according to the invention,

- Figure 3 is a longitudinal section and Figure 4 is a cross section through the feed module and

- Figure 5 shows a section through the screw conveyor of the feed module.

In the figures, the air vortex mill with 1, her drive motor with 2, the feed module with 3 and the screw conveyor with 4.

The highly schematically illustrated embodiment according to Figures 1 and 2 shows that the screw conveyor 4 is slightly flanged to the air vortex mill 1 is flanged. Below the product inlet 5 there is another connecting piece 6, via which gases, for example heated air, are supplied. The rotor rotating about the longitudinal axis 7 of the mill 1 is designated by 8 and its outlet by 9. Part of the feed module 3 is the container 10, which is equipped with two drives 11 and 12. One of the drives (11) drives a stirrer 13, the second the screw 14 of the screw conveyor 4 at. The worm cylinder of the screw conveyor is designated 15. FIGS. 1 and 2 show that in the area of the product inlet 5 in the mill 1 there is a perforated plate 16, which will be discussed in greater detail below.

Components of the agitator 13 in the feed module 3 (Figures 3 and 4) are three (or more or less) preferably three-wing mutually staggered arranged stirring blades 17, 18, 19, which are driven by the drive motor 11 via the shaft 21 with the rotation axis 22. The screw conveyor 4 extends substantially horizontally below the bottom 23 of the feed module. 3

Via an elongated opening 24 in the bottom 23, the interior of the container 10 is in communication with the interior of the screw conveyor 4. Screw conveyor 4 and connection opening 24 are arranged laterally from the axis 22 of the module 3, that they are located substantially in the outer region of the agitator blades 17 to 19.

During operation, the container 10 of the feed module 3 is filled via a pipeline or the like with the product to be treated. It enters the sphere of action of the agitator 13, the agitator blades have different tasks. The agitator blades upper agitator blades 17, 18 have such a blade position and / or a wing cross-section that they exert an upward force component on the product and thus loosen up the product. The impeller blades of one or more lower impellers 19 are designed similarly in their region 26 near the axis. In their outer region 27 they are designed such that they exert a downward force component on the product. The safe and substantially uniform filling of the screw conveyor 4 through the opening 24 is ensured. The direction of rotation of the agitator 13 is selected (arrow 28) such that the outer wing section 27 of the lower stirring blade 19 moves in the conveying direction (arrow 30) of the screw conveyor 4. In a preferred embodiment - as shown in the figures - three each dreiflügelige stirring blades are provided, of which the upper two loosen up the product and the lower of the improved filling of the screw conveyor 4 through the opening 24 is used.

About a further feature of the invention, the inside of the worm cylinder 15 is arranged with a plurality of substantially uniformly distributed over the inner circumference, longitudinally extending, in cross-section approximately rectangular projections equipped. These are strips 29 (cf., in particular, FIG. 5) which are fixed, for example, by welding on the inner wall of the screw cylinder 15. Surprisingly, this measure improves the promotion of moist and sticky starting products and prevents the setting of the screw 14. Suitably, the strips 29 end only immediately in front of the perforated disc 16, so that a safe and trouble-free promotion and compression of the product takes place up to the fluidized-air mill 1. Figure 4 shows a pipe section 31 shown only partially, which is flanged to the screw cylinder 15 and passes through the product in the air vortex mill 1. In this pipe section 31, the strips 29 continue up to the perforated disk 16, not shown in FIG. 4. Through the holes in the perforated disc 16, which expediently have a diameter of 5 to 20 mm, preferably about 10 mm, the product as extrudates or pasta occurs continuously in the form of compacted strands out.

Immediately behind the perforated disc 16 is the grinding chamber of the fluidized-fluid mill 1. The product strands entering the grinding chamber are continuously cut off from the grinding plates of the rotor 8, come into contact with the gases entering at 6 and are crushed and dried on the way to the outlet 9.

In summary, the feed module according to the invention allows a uniform and largely trouble-free feeding even of particularly light products, e.g. Cellulose less than 100 g / l, in the grinding chamber of an air vortex mill. In general, one would have expected that moist and sticky products of this type with a module of the type described can not be transported without problems via a screw conveyor with a relatively small transport cross section (80 to 200 mm, preferably 140 to 160 mm) in the mill. Expensive attempts, in particular for the design of the agitator 13, have more and more eliminated any difficulties encountered. The agitator 13 causes on the one hand a loosening of the starting product and on the other hand a complete no longer dependent on the intrinsic pressure of the product filling of the screw conveyor 4. In the screw conveyor compacted, the product occurs evenly in the grinding chamber of the mill 1 a. An extremely smooth running of the rotor 8 at the same time high degree of filling of the mill 1 are achieved. Overall, the feed module according to the invention significantly contributes to the fact that the entire feeding, grinding and drying process is continuous. In all drive motors, especially when driving the mill rotor 8, it is no longer the previously high load fluctuations.

Claims

P a n t a n s p r e c h e

1) Device (3) for feeding moist and / or sticky products, preferably cellulose, in an air vortex mill (1), characterized in that components of the feed device (3) is a cylindrical container (10), one in the container (10) arranged Stirrer (13) with central shaft (21) and a screw conveyor (4) with a screw (14) and a screw cylinder (15) are that the screw conveyor (4) laterally adjacent to the shaft (21) of the agitator (13) in the area the bottom (23) of the container (10) is arranged and that the screw cylinder (15) and the container (10) via an opening (24) communicate with each other.

2) Device according to claim 1, characterized in that the screw conveyor (4) is slightly raised to the air vortex mill (1) is connected and that below the product inlet (5) in the air vortex mill (1) serving one of the supply of gases connecting piece (6 ) is located.

3) Device according to claim 1, characterized in that the screw conveyor (4) is arranged laterally of the shaft (23) such that the connection opening (24) substantially in the outer region of agitator blades (17 to 19) of the agitator (13). are located.

4) Device according to claim 1, 2 or 3, characterized in that the agitator (13) comprises a plurality of preferably three-winged stirring vanes (17, 18, 19).

5) Device according to claim 4, characterized in that agitator blades of upper agitator blades (17, 18) are formed such that they exert on the product an upward force component.

6) Device according to claim 4 or 5, characterized in that agitator blades of lower impeller blades (19) are at least partially formed such that they exert a downward force on the product.

7) Device according to claim 3 and claim 6, characterized in that agitator blades lower impeller (19) have the property to exert a force component down on the product, only in its outer, the connecting opening (24) sweeping area (27).

8) Apparatus according to claim 7, characterized in that the agitator blades of lower impellers (19) in their region close to the axis as the agitator blades of upper impellers (17, 18) are formed. 9) Device according to one of claims 3 to 8, characterized in that the direction of rotation of the agitator (13) is selected such that the outer portions of the wings (17, 18, 19) in the conveying direction of the screw conveyor (4) move.

10) Device according to one of claims 1 to 9, characterized in that in the screw conveyor (4) stationary projections (29) are provided, which are arranged substantially uniformly distributed around the screw (14) around.

11) Device according to claim 9, characterized in that the projections of longitudinally extending strips (29) are formed, which are fixed on the inner wall of the screw cylinder (15).

12) Apparatus according to claim 10, characterized in that the screw conveyor (4) has a conveying cross section of 80 to 200 mm, preferably from 120 to 160 mm.

Device according to claim 10, 11 or 12, characterized in that the projections (29) extend into the region of the entrance (5) of the product into the mill (1).

14) Device according to one of claims 1 to 13, characterized in that one of the end faces of the screw conveyor (4) directly or via a pipe section (31) with the air vortex mill (1) is connected and that in the region of the product inlet (5) of the Air vortex mill (1) a perforated disc (16) is located.

15) Apparatus according to claim 14, characterized in that the diameter of the perforated disc (16) is adapted to the diameter of the conveying cross section of the screw conveyor (4) and that the size of the diameter of the holes in the perforated disc 5 to 20 mm, preferably about 10 mm, is.

16) Device according to one of claims 1 to 15, characterized in that the feed module (3) is formed explosion proof.

17) A method for feeding moist and / or sticky products in an air vortex mill (1) with a feed module (3) according to one of the claims 1 to 16, characterized in that the product loosened in the upper region of the feed module and in its lower part by the opening (24) in the bottom of the module container (10) in the cylinder (15) of the screw conveyor (4) is conveyed.

18) Method according to claim 15, characterized in that the direction of rotation (28) of the agitator (13) is selected such that at least the outer portion (27) of the lower stirring blade (19) moves in the conveying direction of the screw conveyor (4).