EP0516643A1

EP0516643A1 - Vertical impact mill with coupled material screening

Info

Publication number: EP0516643A1
Application number: EP91903374A
Authority: EP
Inventors: Peter Schatz
Original assignee: O&K Orenstein and Koppel GmbH
Current assignee: CNH Industrial Baumaschinen GmbH
Priority date: 1990-02-22
Filing date: 1991-02-08
Publication date: 1992-12-09
Also published as: DE4005555A1; WO1991012892A1; US5277370A; KR920700772A; BR9105903A; JPH05504296A

Abstract

L'invention propose un dispositif de broyage et de triage de produits en vrac consistant en un broyeur à chocs vertical comportant un dispositif d'alimentation de matière, un séparateur à air, un dispositif d'évacuation de la matière traitée ainsi qu'un dispositif de transport pour reconduire la matière insuffisamment broyée dans le compartiment de broyage. Le broyeur à chocs et le séparateur à air se trouvent placés sur un arbre de transmission divisé et pouvant s'accoupler en cas de nécessité. Le séparateur à air se trouve au-dessous du broyeur à chocs et forme une sole distributrice éventuellement pourvue, selon le cas, d'aubes de guidage. L'alimentation en air s'effectue latéralement ou tangentiellement par le dessous de la sole distributrice, de ce fait la matière traitée est évacuée latéralement ou tangentiellement par le dessus de la sole distributrice et transportée vers un séparateur (cyclone) éventuellement connecté en aval. La matière insuffisamment broyée est évacuée par le dessous de la sole distributrice, à la base du séparateur à air, par une ouverture coopérant avec un dispositif de transport la reconduisant vers le dispositif d'alimentation.The invention provides a device for crushing and sorting bulk products consisting of a vertical impact crusher comprising a material supply device, an air separator, a device for discharging the treated material as well as a device. transport to return the insufficiently ground material to the grinding compartment. The impact crusher and the air separator are located on a split drive shaft and can be coupled if necessary. The air separator is located below the impact crusher and forms a distributor sole optionally provided, as the case may be, with guide vanes. The air supply is carried out laterally or tangentially from below the distributor hearth, as a result the treated material is discharged laterally or tangentially via the top of the distributor hearth and transported to a separator (cyclone) possibly connected downstream. The insufficiently ground material is discharged from below the distributor sole, at the base of the air separator, through an opening cooperating with a transport device leading it back to the supply device.

Description

Vertical impact mill with coupled material classification

The invention relates to a device for comminuting and classifying bulk goods, consisting of a vertical impact cooler with associated feed device, a sifter which can be pressurized with air, a finished material discharge device and a conveying device for returning the insufficiently comminuted bulk material parts into the comminution area.

From DE-PS 576895 a mill feed device with a shredding device is known, which has a centrifugal disc surrounded by a baffle. Below the plane of the baffle ring there is provided an impeller which is driven together with the baffle ring and which generates an air flow which crosses the flow of material falling from the baffle ring. The proportion of fine material is fed by the rising air to a cyclone, which discharges the proportion of fine material downwards and makes the exhaust air available to the fan again. The coarse constituents are fed to a grinding plant provided below the vertical impact mill. The disadvantages of this device are essentially due to the fact that the classifying air can also penetrate into the area of the vertical impact mill, with the possibility of undesirable flow conditions are generated, which can adversely affect the size reduction process. In addition, a further grinding device must be provided in order to re-comminute the insufficiently comminuted bulk material components. This makes the device more complex and also expensive.

EP-PS 118782 relates to a comminution apparatus and a classifier, each with a vertical shaft, the comminution apparatus being provided in the lower region of the system and material being applied to it by means of a screw-shaped feed device. The material which is fed in via the screw enters an upward air stream which is fed in below the shredding apparatus and is intended to introduce the material into the area of the shredding device which is formed by at least one rotating impeller. The air flow should then carry the shredded and possibly not yet adequately shredded bulk material upwards, up to the area of a rotating viewing device, where a further classification takes place. det. The fine material portion is discharged above the classifying device through a collecting pipe, while coarser material is fed back to the feed device on the one hand and is to be fed to the comminution device through corresponding recesses outside the air flow. A further gas supply is provided between the comminution device and the viewing device, a type of perforated plate being arranged above the gas guide, through which the gas entering from the gas supply flows upward. A disadvantage of such a construction is that a relatively high air requirement is necessary in order to ensure an upward flow over the entire inner cross section of the comminution device. The wing or wings provided with impact tools cause a flow component in the circumferential direction, which must be overcome by the upward air flow. This applies in particular to an air stream laden with a coarse fraction. The same also applies to the second gas source supplied from the outside, the flow direction of which is essentially radial and first has to be converted into an axial component. In addition to the relatively complicated structure of the device, flow conditions are shown here that are difficult to implement in practice and thus question the entire function of the system.

Patent application P 3844 178.0, which goes back to the applicant, relates to a method and a device for comminuting bulk materials by feeding the material vertically from above to a comminution device and discharging it after the comminution process. The material is fed to a first accelerator device and brought through it into a first material bed, fine-grained comminution products from this first comminution process being discharged by an upward air or gas flow, coarser grains trickling downwards and by an air or gas flow at least one further Accelerator device are supplied, which introduces the material into corresponding further material beds, the fine-grained comminution products obtained as a result of the comminution work being discharged by the air or gas flow already mentioned, while the coarser grains trickle down and are reintroduced into the circuit. With such a system working in a cycle the advantage of an extremely compact design, which means that further conveying devices for the coarse material provided outside the system can be dispensed with. Since the air supply also takes place over a relatively small cross-section, an upward transport of the insufficiently comminuted bulk material components appears to be problem-free. However, since the air must also have a sufficient flow velocity in the area of the larger cross-section above the second comminution stage in order to be able to discharge the fine material components, the flow components of the first comminution stage, which may act in the circumferential direction or tangentially thereto, can have a disadvantageous effect on the comminution process , so that the proportion of fines to be discharged may not correspond to the predicted performance of the machine.

Starting from the generic part of the first patent claim, the invention is based on the task of structuring the complex processes within the machine and thereby making them more controllable and increasing the efficiency of the individual processes in the machine.

This task is solved by the following combinations of features:

- Vertical impact mill and sifter are arranged on a split, possibly connectable drive shaft

- The classifier, which is provided below the vertical impact mill, is designed as a spreader plate, optionally provided with guide vanes

- The air is supplied laterally or tangentially below the spreader

- The finished parts are discharged laterally or tangentially above the spreading disc

- The insufficiently comminuted bulk material portions are discharged below the spreading plate and fed to the conveying device, which returns the bulk material portions to the area of the material feed device.

Advantageous further developments of the subject matter of the invention can be found in the subclaims.

By combining the above features, the disadvantage of the St.dT is overcome even with a slightly more complex design. The functions of shredding and classifying as well as re-feeding are not sufficient Crushed bulk goods are carried out separately, whereby the process of crushing and classifying can still be carried out in one and the same machine. The advantage over the St.dT is essentially due to the fact that there are no undesired upward flows of the classifying air into the area of comminution, which could possibly adversely affect the comminution work here. The same applies to the re-feeding of the oversize grain. For this reason, the coupling of the two drive shafts appears to make sense that the operation of the machine can be maintained if one or the other drive fails. With two drives there is the advantage that different speeds of the vertical impact mill and the classifier can be realized.

Part of the classifying air is preferably used at the same time via a bypass line to discharge the insufficiently comminuted bulk material, whereby the coarse constituents falling down through the classifying air are brought into a spiral or circular movement by means of the discharge air and in the area of the discharge opening or Discharge openings are discharged and fed directly to the conveyor.

If necessary, the spreader can be equipped with guide vanes (secondary comminution wheel), which may are surrounded by another baffle and can thus cause a secondary shredding.

The conveying device can be formed by a conventional bucket elevator which brings the oversize grain directly into the area of the material feed device above the vertical impact mill. As an alternative, however, a riser pipe can be provided, which transports the insufficiently comminuted bulk material parts upwards by means of an air flow, whereby a separation of the bulk material from the air flow should preferably be provided here, so that no false air is conducted into the area of the vertical impact mill.

If the amount of air supplied from the side is not sufficient to achieve a clean separation of the fine from the coarse components, there is the possibility, with an appropriate design of the lower classifier housing, to supply additional fresh air from below, whereby through specially arranged air outlet openings in the housing prevent flow restrictions of the individual air streams. The additional supply of fresh air appears sensible if the classifier forms a further post-shredding stage and the upward flow of the air is impaired as a result of the post-shredding work taking place here.

The invention is illustrated in the drawing using an exemplary embodiment and is described as follows.

The single figure shows a longitudinal section through the device 1 according to the invention, which consists of the following components:

a vertical impact mill 2, a classifier 3, a finished product discharge device 4 and a conveying device 5 for returning the insufficiently comminuted bulk material portions into the area of the material feed device 6, which is arranged above the vertical impact mill 2. The material is introduced, for example, via a cellular wheel sluice 7 into the material feed device 6 designed as a shaft, so that no false air can penetrate into the system. The material falls on the distributor divider 8, which is provided with guide vanes 9. The distributor divider 8 can be driven in rotation by means of a drive 10. Via the guide vanes 9, the supplied material is introduced into a bed 11 in which the main comminution work takes place. With the exception of the air flow generated by the fan action of the guide vanes, which is directed essentially radially or tangentially, there are no disruptive air influences from air that may be rising or supplied from outside.

Once the bulk material has been built up, both the already sufficient and the not yet sufficiently comminuted bulk material fractions trickle down through the funnel 12 and 13 and are placed in the funnel exit area 14 onto a spreading plate 16, which is optionally provided with blades 15. If blades 15 are present on the spreading plate 16, subsequent comminution can be achieved by arranging a circumferential baffle 17, but this is not necessary in every case. An air supply line 18 is provided below the spreading plate 16 and is arranged laterally on the housing 19 of the classifier 3. The air supply line 18 forms the classifying air, that separates the fine from the not yet sufficiently comminuted bulk material portions and feeds the fine bulk material portions to the finished product discharge device 4 above the spreading plate 16. The discharge device 4 can be connected to a downstream cyclone 20, the exhaust air A of which may be made available to the classifying air line 18 again. The spreader 16 is provided with a separate drive 21, the stub shafts 22, 23 of the vertical impact mill 2 and the classifier 3 being connected to one another via a clutch 24 which can be engaged and disengaged. A further air supply is provided axially below the classifying air supply line 18 via a bypass line 25, which air supply is used to discharge the insufficiently comminuted bulk material components. The bottom 26 of the classifier 3 is conical 27. The trickling down, insufficiently shredded material is set in a spiral or circular movement by means of the air flow from the bypass line 25 and fed to the conveying device 5, which is designed here in the form of a riser pipe. The bottom 26 is provided in the region of the conveyor device 5 with a discharge opening 28 through which the coarse fractions and oversize particles are introduced into the riser pipe 5. A fan G (not shown further) generates an upward air flow within the riser pipe 5, which conveys the coarse material components upwards and forwards them to a further cyclone 29 in the upper end of the riser pipe 5. The material separated in this way is introduced into the material feed device 6 via the line 30 below the cellular wheel sluice 7, wherein no disruptive air components can get into the material discharge device 6. The exhaust air B is returned to the area of the classifying air line 18. In order not to achieve any flow conditions between the sight air supply line 18 and the bypass air line 25 that disturb the sighting process, a sieve-like device 31, essentially filling the inner cross section of the classifier 3, is provided axially between the two feed lines 18 and 25, through which coarse Particles can easily fall through on the inclined floor 27, but an upward flow component of the bypass air is largely avoided.

The discharge device 4 for the fine material portion can also be formed by a discharge spiral with a subsequent separating device. This should be made dependent on the respective application or the respective materials. If the side through line 18 If the amount of air 34 supplied is not sufficient to ensure optimal discharge of the fine-grained particles to the discharge area 4, there is still the possibility of supplying air 35 from below (see arrow direction). In order that no disturbing flow conditions arise, the lower housing area 32 is approximately conical and is provided with air outlet openings 33 which serve to support the air flow 34. Possibly. Coarser particles that have been pulled up again fall into the region 28 and are thus fed to the riser 5. For the targeted introduction of the air flow 35 into the area of the fan wheel 37, an attachment 36 is arranged on the lower housing part 32, which covers the air outlet openings 33 and thus ensures a targeted flow direction to the fan wheel 37.

Claims

1. Device for comminuting and classifying bulk goods, consisting of a vertical impact mill with associated feed device, a sifter which can be pressurized with air, a finished material discharge device and a conveying device for returning the insufficiently comminuted bulk material parts to the comminution area, characterized by the combination following features:

- Vertical impact mill (2) and sifter (3) are arranged on a split, possibly connectable drive shaft (22, 23).

- The classifier (3), which is provided below the vertical impact mill (2), is designed as a spreader plate (16) which is optionally provided with guide vanes (15)

- The air supply (18) takes place laterally or tangentially below the spreading disc (16)

- The finished parts are discharged laterally or tangentially above the spreading disc (16) (4)

- The insufficiently comminuted bulk material portions are discharged below the spreading plate (16) and fed to the conveying device (5), which returns the bulk material portions to the area of the material feed device (6).

2. Device according to claim 1, characterized in each case by a drive (10, 21) for the vertical impact mill (2) and the spreading disc (16), the opposing shaft ends (22, 23) of the two drive shafts engaging with one of the two shafts bringable coupling (24) can be connected to each other.

3. Device according to claims 1 and 2, characterized in that the insufficiently comminuted bulk material in the bottom region (26) of the spreading plate (16) can be discharged, the bottom (26) in the direction of a discharge opening (28) an inclination (27) has, which is connected to the conveyor (5).

4. Device according to claims 1 to 4, characterized in that the discharge of the insufficiently comminuted bulk material is supported by at least one side or tangential to the classifier housing (19) angeord¬ designated air supply device (25).

5. Device according to claims 1 to 4, characterized in that the air supply device (25) is formed by at least one of the classifier air line (18) removable bypass line.

6. Device according to claims 1 to 5, characterized in that in the area between the classifier air line (18) and the bypass line (25) an inner cross-section of the classifier (3) substantially filling sieve-like device (31) is provided.

7. Device according to claims 1 to 6, characterized in that the conveying device (5) is designed as a bucket elevator which feeds the insufficiently comminuted bulk material parts directly to the material feed device (6) above the vertical impact mill (2).

8. Device according to claims 1 to 6, characterized in that the conveying device (5) is designed as a riser, within which the insufficiently comminuted bulk material in the air flow in the area of the material feed device (6) above the vertical impact mill (2) can be transported.

9. Device according to claim 8, characterized in that between the free end of the riser pipe (5) and the material feed device (6) at least one separator separating the air flow from the bulk material portions (29) is provided.

10. Device according to claims 8 and 9, characterized in that the separator (29) is designed as a cyclone, the cyclone discharge (30) opening into the material feed device (6) and the exhaust air (B) possibly again the sight and / or the discharge air line (18, 25) is made available.

11. Device according to claims 1 to 10, characterized in that the finished product portion above the classifier (3) can be discharged laterally or tangentially (4) and optionally a separator (20) in the form of a cyclone can be fed, the exhaust air (A) the sight and / or discharge air line (18, 25) is again made available.

12. Device according to claims 1 to 11, characterized in that the proportion of finished goods can be discharged by a spiral.

13. Device according to claims 1 to 12, characterized in that the lower housing region (32) of the classifier (3) forms approximately conically and is provided with air outlet openings (33) through which a further amount of air (35) from below in the area of the classifier (3) can be fed.

14. Device according to claims 1 to 13, characterized in that the housing region (32) is provided with an attachment (36), the lower region is provided below the air outlet openings (33) and the upper end thereof in the vicinity of the fan wheel (37) extends.