System and method for starting up stirring machines in a sediment

Abstract

A system and an associated method for starting up stirring machines in a sediment in a controlled manner are provided, which system has the following: a container for receiving materials to be processed; a stirring device with stirring blades for stirring the materials to be processed in the container; a purging device; and a device for operating stirring machines. The purging device is arranged in such a way and set up so as to feed a medium for purging to a deposited sediment. Furthermore, a controller is provided which initiates controlled re-starting of stirring machines after purging.

Claims

1. A system for starting up a stirring machine in a sediment in a controlled manner, comprising: a container for receiving a material to be processed, the container includes a top side and a bottom; a stirring device having stirring blades for stirring the material to be processed in the container; a purging device configured to convey to a deposited sediment of the material a medium for purging the deposited sediment, the purging device comprises a pump and at least one supply line through which the pump pumps the medium for purging; a device for operating the stirring machine which comprises a drive motor, the device for operating the stirring machine further comprises a shaft that supports the stirring blades, a shaft catch ring that supports the shaft, and support elements that attach to the shaft catch ring and multiple points on the bottom of the container, the shaft catch ring and the support elements are arranged below the stirring blades when viewed from the top side of the container towards the bottom of the container; and a controller configured to initiate a controlled re-start of the stirring machine after purging has been effected, the controller is provided with a measurement device that measures a sedimentation level in the container.

2. The system of claim 1, wherein the medium is a liquid.

3. The system of claim 1, wherein the at least one supply line is configured to convey the medium below or to the stirring blades.

4. The system of claim 1, wherein the medium is a liquid from a clear surface above the deposited sediment within the container and drawn by the pump and fed to the at least one supply line.

5. The system of claim 1, wherein the at least one supply line comprises channels and outlets which are part of the stirring blades.

6. The system of claim 1, wherein the device for operating the stirring machine has a shaft for support of the stirring blades, and further comprising a tubular stirrer mounted on an end of the shaft below the stirring device to be purged and connected to at least one supply line, said tubular stirrer having purge tubes which are orientated outward in substantially parallel and aligned relationship to the stirring blades.

7. The system of claim 1, wherein the at least one supply line comprises purging laces situated in a defined position with respect to the stirring blades such that the medium is in close proximity of the stirring blades.

8. The system of claim 7, wherein the stirring machine stops at a defined angle position with respect to the purging lances.

9. The system of claim 1, wherein the at least one supply line comprises purging lances situated in a defined position with respect to the stirring blades, the shaft catch ring being connected together with the purging lances to a shared structure.

10. The system of claim 1, wherein the measurement device is configured to measure a density or a pressure difference.

11. The system of claim 1, wherein the measurement device is configured to determine by calculation a deposited quantity of deposited sediment from material properties of a suspension.

12. The system of claim 1, wherein the device for operating the stirring machine is configured to operate the stirring machine in dependence of the determined sedimentation level.

13. The system of claim 1, wherein the device for operating the stirring machine is a drive motor configured to run in a frequency-controlled manner, and wherein the stirring machine is started up over a ramp in a time-controlled manner.

14. The system of claim 1, wherein the pump is a circulation pump to circulate the medium within the container while maintaining a constant pressure.

15. The system of claim 14, wherein the circulation pump is a pump configured to convey a suspension.

16. The system of claim 1, wherein the pump of the purging device is caused to operate within a short time after the stirring machine fails to operate.

17. The system of claim 1, further comprising an emergency power unit configured to supply power to the pump of the purging device.

18. The system of claim 1, further comprising an interim container arranged above a sedimentation level of the material and configured to receive the medium from the pump for executing a short-term purging.

19. The system of claim 1, wherein the device for operating the stirring machine is configured for operation in a time-delayed manner after elapse of predefined time period for starting up the purging device.

20. The system of claim 1, wherein the controller includes a measurement device for measuring a pressure and/or a volume flow in the at least one supply line to provide a result regarding a purging operation.

21. The system of claim 19, wherein the measurement device is configured to restart the stirring machine in response to the provided result.

22. A system for starting up a stirring machine in a sediment in a controlled manner, comprising: a container for receiving a material to be processed, the container includes a top side and a bottom; a stirring device having stirring blades for stirring the material to be processed in the container; a purging device configured to convey to a deposited sediment a medium for purging the sediment, wherein the purging device comprises a pump and at least one supply line through which the pump pumps the medium for purging, wherein the at least one supply line comprises purging lances which firstly extend at the interior edge of the container and then are bent in a direction towards the stirring blades; a device for operating the stirring machine which comprises a drive motor, the device for operating the stirring machine further comprises a shaft that supports the stirring blades, a shaft catch ring that supports the shaft, and support elements that attach to the shaft catch ring and multiple points on the bottom of the container, the shaft catch ring and the support elements are arranged below the stirring blades when viewed from the top side of the container towards the bottom of the container; and a controller configured to initiate a controlled re-start of the stirring machine after purging has been effected, wherein the controller is provided with a device for measuring a sedimentation level.

23. The system of claim 22, wherein the stirring device, the device of operating the stirring blades and the purging lances are arranged inside the container at least essentially in alignment when viewed from a top side of the container towards a bottom of the container.

Description

BRIEF DESCRIPTION OF THE DRAWING

(1) The indicated and further features and details of the invention will be clarified to an expert having normal skill in the field from the following detailed description and from the drawings attached, which show features of the present invention in an exemplary embodiment, and wherein

(2) FIG. 1 shows a first exemplary embodiment of a system according to the invention for starting up stirring machines in a sediment in a controlled manner;

(3) FIG. 2 shows a detailed view of the first embodiment shown in FIG. 1;

(4) FIG. 3 shows another detailed view of the first embodiment shown in FIG. 1;

(5) FIG. 4 shows a second exemplary embodiment of a system according to the invention for starting up stirring machines in a sediment in a controlled manner; and

(6) FIG. 5 shows a third exemplary embodiment of a system according to the invention for starting up stirring machines in a sediment in a controlled manner.

DETAILED DESCRIPTION OF PREFERRED EMBODIMENTS

(7) FIGS. 1, 4 and 5 each show an exemplary embodiment of a system according to the invention for starting up stirring machines in a sediment in a controlled manner. The system is shown to respectively comprise a container 1 for receiving materials to be processed, a stirring device with stirring blades 3 for stirring the materials to be processed in the container 1, a purging device and a device 2 for operating stirring machines. The purging device is, according to the invention, arranged and provided such that it conveys to a deposited sediment a medium for purging the sediment. The purging device in particular comprises a pump 4 (not shown in FIGS. 1, 4 and 5) and at least one supply line 6 through which the pump 4 pumps the medium for purging. The purging device is implemented in differing ways according to respective requirements and will be explained in detail referring to the figures.

(8) In all Figures a sedimentation level is designated with 8 and a clear surface with 9.

(9) The medium for purging is preferably a liquid. It is possible that liquid from the clear surface 9 is used as a medium for purging, which liquid is drawn by the pump 4 and fed to the at least one supply line 6. When using the liquid above the sediment, i.e. from the clear surface 9, continuous purging is possible without the container 1 being overfilled.

(10) In the system according to the invention furthermore a device for measuring a sedimentation level 8, i.e. a deposited quantity of solid matter or a level of the clear surface 9, is provided. Herein the device for measuring in particular measures a density or a pressure difference. The device for measuring can also be designed such that it determines by calculation a deposited quantity of solid matter from material values of the suspension.

(11) In the system of the present invention the device 2 for operating stirring machines sets stirring machines into operation preferentially in dependence of the determined sedimentation level 9.

(12) A drive motor of the stirring machine as a device 2 for operating stirring machines is in particular operable in a frequency-controlled manner, and the stirring machine is preferably started up over a ramp in a time-controlled manner.

(13) The system may comprise a plurality of stirring machines, an emergency power unit being provided which intermittently operates at least one of the stirring machines.

(14) The pump 4 of the purging device is preferably a circulation pump which turns the medium for purging over within the container 1 while keeping up the current pressure. In particular, a pump which is, in normal operation, used for conveying suspension can be used as the circulation pump. The pump 4 of the purging device is preferentially set into operation shortly after a failure of stirring machines. It is in particular advantageous that, in the case of a container 1 being under pressure, the circulation pump does not have to build up the interior pressure but merely turns over the medium within the pressure space. In addition, the pump 4 starting up on failure of the stirring machine is also advantageous. The time period until the pump starts running should be maximally set such that the purging openings are not yet covered in sediment if they are situated below the sediment.

(15) Preferably there is also an emergency power unit, which supplies the pump 4 of the purging device with power, provided in the system. In the case of a power breakdown, an emergency power unit is sufficient for the pump 4, the apparent power of which can be 2 to 10 times smaller than the power of the stirring machine motor 2. Due to the fact that only the pump 4 of the purging device is to be supplied with power, thus a power demand in the case of an operation failure is reduced. However, in big and very big containers it can be a disadvantage to design the pump 4 and the emergency power unit for short-term purging of the stirring blades 3.

(16) Furthermore, in the system according to the present invention preferably an interim container 5 is provided, which is arranged above a sedimentation level 8 and, if required, is filled with the medium for purging by means of the pump 4, and from which the medium for purging is then conveyed to the sediment successively or abruptly.

(17) The device 2 for operating stirring machines, i.e. the drive motor, is in particular set into operation in a time-delayed manner, after a pre-set time period has passed after starting up the purging device.

(18) Further preferentially, devices for measuring a pressure and/or a volume flow in the supply lines 6 are provided, to the purpose of supplying results regarding the purging. A stirring machine is preferably re-set into operation in accordance with the results regarding the purging obtained by the controller 10 shown in FIG. 3 via devices for measuring a pressure p and/or a volume flow in the at least one supply line 6. Thus a possibility of monitoring is given, and it is moreover possible to start operation of the stirring machine only if there is a sufficient purging effect.

(19) In particular if there is a plurality of containers (cascades) present, a big pump and, if applicable, a big interim container as well, can be expedient. It is sufficient to define the power output such that the purging quantity and the purging pressure are sufficient for starting up the stirring machine. As soon as the stirring machine is running, the next stirring machine can be (re-)started and so on, until all stirring machines are in operation again.

(20) As is shown in the Figures, the at least one supply line 6 is in particular implemented in such a way that it conveys the medium for purging below or to the stirring blades 3. The at least one supply line 6 may comprise purging lances which are situated in such a defined position with respect to the stirring blades 3 that the medium for purging gets into the close surroundings of the stirring blades 3. Herein the stirring machine preferably stops at a defined angle position with respect to the purging lances.

(21) In FIG. 1 two supply lines 6 are shown embodied as purging lances into which the medium for purging is introduced, by means of the pump of the purging device, in a direction of the arrows depicted. The medium for purging is then pumped through the purging lances, which firstly extend at the interior edge of the container and then are bent in a direction towards the stirring blades 3. At the stirring blades 3, the medium for purging then leaves the purging lances, and there serves to purge the sediment, thus allowing starting up of the stirring machine in the sediment.

(22) In FIG. 2 the exemplary embodiment shown in FIG. 1 is depicted in more detail. In addition to the container 1, the device 2 for operating the stirring machine, the stirring blades 3 and the supply lines 6 of the purging device, a pump 4 is shown, which takes liquid from the clear liquid surface 9 and then conveys it to the supply lines 6.

(23) In FIG. 2 also a shaft catch ring 20 is shown, which supports the shaft that carries the stirring blades 3, to the purpose of avoiding the shaft mechanically bending away at start-up, a maximum motor torque being required at start-up. The shaft catch ring 20 is preferentially connected, together with the purging lances 6, to a shared mechanically robust structure 30.

(24) FIG. 3 shows another more detailed illustration of the exemplary embodiment depicted in FIG. 1. In addition to the pump already depicted in FIG. 2, an interim container 5 is shown in which liquid pumped from the clear liquid surface 9 can be stored until it is required. If the liquid is required, is determined by a controller 10 including a measuring equipment designated p for measuring a pressure and/or a volume flow in the at least one supply line 6 and for measuring the filling level F of the interim container 5. A shut-off valve 12 for regulating a flow of the liquid from the interim container 5 to the supply lines, which shut-off valve 12 is actuated by the controller 10, is also shown.

(25) From FIGS. 2 and 3 it can be perceived that the system for starting up stirring machines in the sediment can be designed in a flexible manner, according to respective requirements. It is further pointed out that the pump 4, the interim container 5 and the controller 10 (including measuring equipment etc.) are not only or cannot only be provided in the exemplary embodiment of the present invention shown in FIG. 1, but that the exemplary embodiments of the present invention shown in FIGS. 4 and 5 are also or may also be provided with the pump 4, the interim container 5 and the controller 10 (including measuring equipment etc.).

(26) In FIG. 4 a supply line 6 is shown in the form of purging lances, into which the medium for purging is introduced, by the pump 4 of the purging device, in a direction of the arrow shown. The medium for purging is then pumped through the purging lance, which firstly extends at the interior edge of the container 1, is bent, at the bottom of the container, in a direction towards the center of the container 1 and is then bent, in the center and at the bottom of the container 1, in a direction upwards and extends up to shortly below the stirring blades 3. At this point, on the shaft end and below the stirring element to be purged, there sits a tubular stirrer 7, which is connected to the supply line 6 and the purging tubes of which are orientated outwards in a manner substantially parallel and aligned with the stirring blades 3. As an alternative, the supply line 6 may also be extended up to the stirring blades 3, where the medium for purging can be discharged to channels and outlets which are part of the stirring blades 3. In this case no tubular stirrer 7 is required, however the stirring blades 3 are to be equipped with channels and outlets.

(27) In FIG. 5 a system comprising a plurality of stirring elements with stirring blades 3 is shown. Two of the four stirring elements depicted are shown in the sediment below the sedimentation level 8, and the other two stirring elements are shown above the sediment but underneath the clear liquid surface 9. In the case of the upper stirring element of the two stirring elements shown in the sediment, a medium for purging is introduced in the same way as already described referring to FIG. 1. However, differently from FIG. 1, the medium for purging is fed by the two purging lances 6 shortly above the stirring blades 3. Furthermore, in FIG. 5 a pipe 11 is shown at the lefthand side of the interior wall of the container 1, to which a medium for purging is fed in a direction of the arrow depicted. The medium for purging can be fed from the interim container shown in FIG. 3, which is situated above the stirring machine. The pipe 11 extends at the interior wall of the container 1 in a direction downwards to the bottom of the container 1, is bent shortly above the bottom in a direction towards the center of the container 1 and is bent, in the center of the container, such that it extends upwards to the center of the stirring element. At the stirring element the medium for purging is discharged into channels which are located in the stirring blades 3. From there the medium for purging is discharged into the sediment via outlets at the stirring blades 3. According to the system shown in FIG. 5, a medium for purging is fed to the sediment at two points, at which points there are stirring elements in the sediment. Thus both stirring elements which are in the sediment can be purged.

(28) In particular, additional purging lances may be fitted in to function as supply lines 6. An already existing gassing system may also be used, which is supplied with the medium for purging and shortly serves as a purging device.

(29) It is moreover advantageous to mechanically brake and position the stirring element in such a way that it stops in a defined position, where the purging lances 6 are also arranged above the stirring blades 3 and the flow of the medium for purging thus directly hits on the stirring blades 3.

(30) By means of the controller a method is carried out wherein, after stating a failure of a stirring machine having a stirring machine motor accompanied by sedimentation of materials to be processed that have been received in the container, the lances in supply lines are sporadically purged by the medium for purging. The sediment is fluidized by purging via pressurized air or via the medium for purging. While keeping up fluidization; the stirring machine is started up in the reverse operation. The fluidization is stopped and the reverse operation is continued. The operation of the stirring machine is shortly stopped and the stirring machine motor is re-switched into the standard rotational direction. Eventually the stirring machine is operated in the normal operation. Operating the stirring machine in the normal operation is carried out, for a certain time period, while monitoring the operation via the controller and its devices for measuring.

(31) The universally applicable system according to the present invention allows starting up a stirring machine in a sediment in a controlled manner, without a major effort being required. Herein it does not matter if the stirring machine is situated in a centric or in an eccentric manner or in a draft tube, respectively if the stirring machine shaft is mechanically guided or supported, nor the number of stirring element stages. According to the present invention, the stirring blades are purged and the sediment is locally disaggregated.