EP0531660A1 - Guiding device for submersible stirring device - Google Patents

Abstract

A device for guiding a submersible mixer 1 through a receptacle comprises two cable sections 7 having upper ends fixed to the receptacle and lower ends received by supporting members 10 mounted to the bottom surface of the receptacle. A guide slide 4, alternatively attached to the receptacle and the submersible mixer by two connecting elements 13, has two tubular posts 60, 61 that are slidably coupled to the cable sections 7. After lowering the submersible mixer 1 onto the guide slide 4, the connecting elements 13 are detached from the receptacle and attached to the submersible mixer, one after the other, so that the guide slide 4 is firmly anchored to the receptacle until the submersible mixer 1 is secured to the guide slide 4. The guide slide 4, with the submersible mixer 1 secured thereon, is then lowered through the receptacle and onto the two supporting members 10 so that the submersible mixer 1 can conduct operations in the receptacle.

Description

The invention relates to a guide device for a submersible mixer or the like. According to the preamble of patent claim 1.

Guide devices according to the preamble of claim 1 have two guide columns in the form of tubes, which serve to bring the submersible mixer with the aid of a hoisting rope near the bottom of a container, at which point the submersible mixer then starts operating. In the case of greater container depths, in particular at depths of approximately more than 10 m, the flow generated by the submersible agitator causes the support columns to be so unstable that they can break, or at least to such an extent can be strongly vibrated that a proper mounting of the submersible is no longer guaranteed.

Another disadvantage of known guide devices is that when the submersible mixer is placed on the support columns, aids such as screws or the like have to be loosened, as a result of which there is a risk that such aids will fall into the container.

The invention has for its object to improve a guide device of the type mentioned in such a way that it can also be used for container depths of more than 10 m and is not impaired by the flow generated by the submersible mixer in the container.

This object is achieved according to the invention by the features in the characterizing part of patent claim 1.

Further refinements of the invention result from the subclaims.

The invention provides a guide device which, in particular due to the use of ropes, preferably steel ropes, causes an extremely low flow resistance, so that the guide units are not exposed to the risk of destruction and the submersible mixer or the like can nevertheless be brought into a stable operating position. The guide device ensures that the submersible agitator can be easily moved into the container by using a guide carriage which is adjustable along the guide units.

According to a preferred embodiment of the guide device, the guide units are designed such that the conical design of the guide parts assigned to one another a secure placement of the guide carriage on a bearing unit at a predetermined height relative to the bottom of the container or the like is guaranteed.

According to a preferred embodiment of the guide device, the submersible mixer is inserted by means of a hoisting rope into a guide carriage fixed in relation to the container opening, after which the connecting devices for the container opening holding the guide carriage opposite the container opening are successively released and firmly anchored to the housing of the submersible mixer or a holder receiving the submersible mixer , after which the submersible mixer can be moved together with the guide carriage into the operating position located close to the tank bottom.

Fig. 1

eine schematische Dartstellung der Führungseinrichtung zur Erläuterung der Arbeitsfolge beim Ablassen eines Tauchrührwerks,

Fig. 2

eine Teildarstellung zur Erläuterung der Befestigung der Seilabschnitte im Bereich einer Behälteröffnung,

Fig. 3a bis 3c

eine bevorzugte Ausführungsform der in Fig. 2 gezeigten Führungskonsole,

Fig. 4a und 4b

schematische Darstellungen einer Lagereinheit,

Fig. 5a bis 5c

Ansichten einer bevorzugten Halterung für das Tauchrührwerk oder dgl.,

Fig. 6a und 6b

Ansichten einer bevorzugten Ausführungsform einer Einrichtung zur Beabstandung der Rührwerkshalterung gemäß Fig. 5a und 5b gegenüber der Bodenwandung,

Fig. 7a bis 7c

zeigen in schematischer Darstellung eine bevorzugte Ausführungsform eines Führungsschlittens,

Fig. 8a und 8b

einen Schlitten zur Aufnahme des Tauchrührwerks, und

Fig. 9

eine bevorzugte Ausführungsform einer Zentrierungseinrichtung für den Führungsschlitten.

The guide device according to the invention is described below with the aid of the drawing to explain further advantages and features.
Show it:

Fig. 1

1 shows a schematic representation of the guide device to explain the work sequence when lowering a submersible mixer,

Fig. 2

2 shows a partial illustration to explain the fastening of the cable sections in the area of a container opening,

3a to 3c

1 shows a preferred embodiment of the guide console shown in FIG. 2,

4a and 4b

schematic representations of a storage unit,

5a to 5c

Views of a preferred holder for the submersible mixer or the like,

6a and 6b

Views of a preferred embodiment of a device for spacing the agitator bracket 5a and 5b with respect to the bottom wall,

7a to 7c

show a schematic representation of a preferred embodiment of a guide carriage,

8a and 8b

a carriage to hold the submersible mixer, and

Fig. 9

a preferred embodiment of a centering device for the guide carriage.

A preferred embodiment of the guide device according to the invention is described below with reference to the drawings.

Fig. 1 shows a schematic representation of the entire guide device and the mode of operation when lowering a submersible mixer. The submersible mixer is denoted by 1 in FIG. 1 and at least vertically adjustable by means of a hoist rope 2 with the aid of a winch, not shown. According to a preferred embodiment, the submersible agitator 1 is seated in a frame which receives it and which is constructed in such a way that it is dimensionally matched to a guide carriage. Details of the frame receiving the submersible mixer are explained below in connection with FIG. 7.

The container is only indicated schematically in FIG. 1 and has a container opening 5, in which guide brackets 6 are mounted. The guide brackets 6 each hold a cable, preferably steel cables 7a, 7b, which has a connecting part 8a, 8b at its upper end, for example in the form of a turnbuckle, which is correspondingly connected to the associated guide console 6. In this way, each guide bracket 6 holds a steel cable 7a, 7b, which is connected at its lower end to a bearing unit 10a, 10b. The length of each steel cable 7a, 7b is selected such that it has a predetermined tension in the operating state shown in FIG. 1. The storage units 10a, 10b are in turn mounted on a holder 12 which are fixed either directly to the container bottom 14 or by means 15a, 15b relative to the container bottom at a predetermined distance.

The guide device shown in FIG. 1 thus consists of two guide cables 7a, 7b with the associated connecting elements for the container opening on the one hand and for the container bottom on the other. As can be seen, the invention is not restricted to two such guide units; three or more such guide units can also be provided if necessary.

As shown in FIG. 1 at a, the submersible agitator 1 hangs above the container opening 5 with the frame (not designated further) and is inserted according to FIG. 1b by lowering the lifting cable 2 into the guide carriage 4, which according to FIG. 13b in the area of the container opening 5, for example, is attached to the guide brackets 6. As soon as the submersible agitator 1 rests on the guide carriage 4, the connecting elements 12a, 12b are successively connected to the frame or housing of the submersible agitator 1, i.e. For example, the connecting element 12a is first released from the attachment in the region of the container opening 5 and fixed to the housing or frame of the submersible mixer 1 before the same process is carried out with respect to the connecting element 12b. In this way, accidental lowering of the guide carriage 4 and removal of the same relative to the submersible mixer 1 in FIG. 1b is excluded. 1c can now be lowered into the container by lowering the hoisting rope 2 until, according to FIG. 1d, the submersible mixer 1 comes to rest on the holder 12 at a predetermined distance from the bottom 14 of the container and its fixed, predetermined Occupies operating position. The submersible mixer can now be put into operation.

In the illustrated embodiment of the invention, this A submersible mixer has a gear and a motor within its housing, so that an electrical feed line must be provided from the container opening to the submersible mixer 1, which can optionally run along the lifting cable 2.

The submersible mixer is lifted in the reverse order to the description above.

According to FIG. 1, ropes are used as connecting elements 12a, 12b, which are suspended in an eyelet 19 provided on the lifting rope 2 after the end associated with the container opening 5 has been released.

Fig. 2 shows a possibility of fastening the guide units designated 15a and 15b. According to this embodiment, each guide part 7a or 7b of the guide units 17a or 17b is in the region of the container opening 5 with a connecting part 16, e.g. in the form of a turnbuckle, which in turn is attached to a guide bracket 6 provided specifically for each guide unit 15a, 15b, which is located either in the area of the container opening 5 or in the opening of a lid of the container, not shown. The guide brackets 6 are to be arranged at such a distance from one another that the desired distance of the guide units 15a, 15b from one another is maintained, which in turn is determined by the distance between the parts of the guide carriage 4 which are yet to be explained. In the embodiment shown in FIG. 2, each guide console 6 is screwed to the container edge in the region of the container opening 5. If necessary, a single guide bracket can also be provided for fastening the two connecting parts 16.

3a and 3b show a preferred embodiment of a guide console which consists of a plate 18 which, according to this embodiment, is to be mounted in the vertical direction and one which struts horizontally from the plate 18 Arm 20, which is preferably formed by two mirror-inverted U-profiles and carries at its free end a projection 22 which points downward and is provided at its lower end with an opening or eyelet 22 or the like, which serves as an upper fixed bearing is provided for the steel cable 7a or 7b. The part containing the opening or eyelet 22 can, as can be seen from FIG. 3b, also be sandwiched between the two U-shaped profiles which form the arm 20.

3c shows a top view of the guide console 6. From Fig. 3c it can be seen that the arm 20 is tapered at its free end. In this way, the least possible hindrance when inserting the submersible mixer past the console 6 into the container opening is ensured.

4a and 4b show a preferred embodiment of bearing units 10a, 10b. Accordingly, each bearing unit 10a, 10b according to this embodiment consists of a plate 26 on which an upwardly tapering tube 28 is fastened, for example welded on. Arranged below the plate 26 is a further plate 30 which is to be firmly connected to the plate 26 and which defines a lower fixed bearing for the associated steel cable 7a or 7b. This lower fixed bearing, which is denoted by 31 in FIG. 4a, in this embodiment consists of a threaded bore 31 formed centrally in the plate 30, into which a threaded fitting which is firmly connected to the steel cable is screwed. The upper opening 28a of the tube 28 is chosen so large that the threaded fitting, not shown, can be inserted through this opening 28a into the interior of the tube 28 during the assembly of the guide device according to the invention.

The plates 26, 30 have an outer dimension that is larger than the outer diameter of the tube 28. The plates 26, 30 are provided with a series of through bores 32, 33 which are aligned with one another and serve to accommodate fasteners such as screws in order to fasten the bearing unit on the holder 12 to be described.

As FIG. 4b shows, the plates 26, 30 have an annular structure and serve to fasten the tube 28, which is firmly connected to the plates 26, 30, on the holder 12. A preferred embodiment of the holder 12 is used in connection with FIGS. 5a and 5b explained. According to this embodiment, the holder 12 consists of two U-shaped profiles 34, 35, which are arranged mirror-symmetrically to one another in the manner shown in FIG. 5c and on their top and bottom in each case in the manner shown in FIGS. 5a and 5b Wear 36 to 39. The fastening plates 36 to 39 are preferably welded to the profiles or supports 34, 35 in order to keep the plates 36, 37 on the one hand at a distance from one another with respect to the plates 38, 39. The preferably rectangular plates 36 to 39 are provided in a corresponding manner with bores 42, 43, etc., which serve to connect the plates 26, 30. The holder 12 can be connected directly to the base 14 of the container by means of the plates 38, 39 or can be mounted on the container base 14 via an additional device for spacing the holder 12. The holder 12 essentially serves to accommodate the submersible mixer, i.e. for storing the submersible mixer 1 after its lowering into the operating position defined by the holder 12 within the container.

The tubes 28 are designed to taper upwards in order to ensure that the guide slide 4, which is still to be explained, is placed gently on the submerged agitator 1 together with the slide 4 during the lowering process. The carriage 4 is securely guided through the tapered upper tube ends and moved over the tubes 28 down to the holder 12.

5a to 5c consists of two spaced-apart fastening groups, which are defined by the plates 36, 38 and 37, 39, insofar as the guide device according to the invention contains two guide units. In the case of a plurality of such guide units, the holder according to FIGS. 5a to 5c must be modified accordingly.

The device 15 is explained below with reference to FIGS. 6a and 6b, which can be provided if necessary in order to be able to mount the holder 12 at a predetermined distance from the bottom 14 of the container. The device 15 also consists of two parts designated in FIG. 1 with 15a and 15b, of which an embodiment is shown in FIGS. 6a and 6b. This device 15 consists of a vertically mountable tube 48 or the like. With an upper and a lower fastening plate 49, 50, of which the lower plate 50 is screwed or welded to the container bottom, while the upper plate 49 is connected to the plate 38 or 39 the bracket 12 is used. The length of the tube 48 is selected as a function of the distance which the holder 12 is to maintain from the container bottom 14. The plates 49 and 50 are preferably welded to the tube 48. For additional stabilization of the device 15, a side strut 52 can be provided, preferably also in the form of a tube, which runs obliquely to the tank bottom 4 and is mounted on the tank bottom by means of a plate 54. The strut 52 is fixedly connected at its upper end to the upper part of the tube 48, preferably welded. The strut 52 is arranged in the guide device shown in Fig. 1 so that it is parallel to the flow direction of the flow generated by the submersible mixer, i.e. 1, the strut 52 is to be provided behind the tube 48, pointing perpendicular to that plane which is defined by the two tubes 48 of the units 15a, 15b.

7a to 7c show a preferred embodiment of a Guide carriage 4 for receiving the submersible mixer 1. This guide carriage 4 consists of two mutually parallel tubes 60, 61, the inside diameter of which is selected to be larger than the outside diameter of the bearing units which receive the guide carriage 4 and are likewise formed by tubes 28. The tubes 60, 61 are fixed, for example, by angle irons 63, 64 at a predetermined distance from one another. In this way, the tubes 60, 61 are kept at a distance corresponding to the distance between the cables 7a, 7b. The tubes 60, 61 can also be connected to one another by another embodiment which differs from the embodiment according to FIGS. 7a, 7b.

The tubes 60, 61 are flared at their lower ends in order to ensure that these tubes are placed and pushed onto the bearing units 10a, 10b smoothly and without jamming. In this way, the guide carriage 4 can be moved along the guide units 7a, 7b without any problems, the cross strut formed by angle iron 63, 64 additionally serving to mount the submersible mixer 1.

The side view of the guide carriage 4 according to FIG. 7b shows that a connecting member 66, 67 is provided to the side of the tubes 60, 61, which serves to fix the connecting elements 13a, 13b to the guide carriage 4. In the embodiment shown, the connecting members 66, 67 are welded in the form of U-shaped eyelets to the lateral tube walls of the tubes 60, 61.

The guide carriage 4 according to FIGS. 7a, 7b serves to accommodate the submersible mixer 1, which can be mounted, for example, fixedly within a frame 70, as is known per se and shown in FIGS. 8a and 8b. This frame 70 has two laterally extending U-profiles 72, 73, which according to FIG. 8b both at the upper and at the lower end by iron, preferably angle iron 74, 75 at a predetermined distance are fixed to each other and result in a solid frame construction. The profiles 72, 73 are pushed into the guide carriage 4 when the frame 70 is lowered in accordance with FIG. 1b with partial gripping of the tubes 60, 61 until the underside of the frame 70 comes to rest on the cross strut 63, 64. A bracket 76, which is fixedly connected to the frame 70, serves to link the hoisting rope 2. The submersible mixer 1 is not illustrated in FIGS. 8a and 8b.

From the above description of the guide device according to the invention it follows that the submersible mixer 1 mounted on the frame 70 is simply placed on the guide carriage 4 according to FIGS. 1a and 1b and no screws or other assembly means have to be loosened. Only the locking aids for the guide carriage in the form of the connecting elements 13a, 13b are to be released relative to the associated guide console 6 and connected to the housing or the frame 70 of the submersible mixer before the submersible mixer 1 can be lowered along the cables 7a, 7b to the bearing unit 10 . The use of ropes 7a, 7b with a comparatively small cross-section creates a practically negligible flow resistance during the operation of the submersible mixer 1, but on the other hand they are sufficiently stable to hold the submersible mixer 1 securely in its operating position resting on the holder 12.

According to the above explanation of the guide device according to the invention, it is provided that the elements 10a, 10b of the bearing unit are provided vertically aligned with the connecting parts 8a, 8b. According to a modified embodiment, the holder 12 is mounted rotated with respect to a vertical axis, so that the elements 10a, 10b are rotated or offset by a predetermined angle with respect to the inventive parts 8a, 8b, as a result of which the cables 7a, 7b are slightly turned around the vertical axis run. In this embodiment, the elements 10a, 10b are therefore not aligned the connecting parts 8a, 8b. The purpose of this embodiment is to move the submersible agitator from the starting position defined by the connecting parts 8a, 8b into a slightly rotated operating position during the downward movement of the submersible mixer and thus to use the submersible mixer in a predetermined direction within the associated container. This makes it possible to insert either a plurality of submersible mixers within a container or a plurality of submersible mixers into containers arranged one behind the other by means of only one lifting crane, which is guided over a trolley, into the respective container openings. By further lowering the submersible mixers, they are brought into a predetermined working position determined by the positioning of the holder 12.

It can be advantageous to provide a centering device on each connecting piece 16. This device consists, for example, of a plurality of downwardly tapering guide parts 80, which are distributed around the circumference of the connecting piece 16 and come into contact with the pipe sections 60, 61 when the guide carriage is raised. The aim of this centering device 80 is to restrict its mobility with respect to the connecting pieces 16 when the guide slide is raised, in particular to avoid an excessive displacement in the horizontal direction. A preferred embodiment of this centering device 80 is shown in FIG. 9.

Claims (9)

Guide device for a submersible mixer or the like, which has at least two essentially parallel guide units with cable sections,
the guide units being fastened or supported in a container at their lower end,
characterized by
that the guide units (17a, 17b) end with their upper ends on the wall of a container or in a lid opening of the container,
that each cable section (7a, 7b) of the guide units (17a, 17b) is fastened in the region of the container opening by means of a connecting piece (16),
that a lower bearing unit (10a, 10b) is provided for the guide units (17a, 17b), against which the lower end of each cable section (7a, 7b) is anchored,
that an adjustable along the guide units (17a, 17b) Guide carriage (4) is provided, which consists of at least two essentially parallel tubes (60, 61), of which the lower end is flared, while the bearing units (10a, 10b) taper at their upper end. Guide device according to claim 1,
characterized by
that the mutually parallel tubes (60, 61) of the guide carriage (4) are arranged at a distance from one another by a connecting device (63, 64). Guide device according to one of the preceding claims,
characterized by
that the inner dimension of the tubes (60, 61) of the guide carriage (4) is chosen to be larger than the outer dimension of the bearing units (10a, 10b). Guide device according to one of the preceding claims,
characterized by
that the guide carriage (4) has fastening devices (13a, 13b) which are provided on the one hand for holding the guide carriage (4) in the region of the container opening (5) and on the other hand for fixing to the submersible mixer (1). Guide device according to one of the preceding claims,
characterized by
that the bearing units (10a, 10b) are arranged on a holder (12). Guide device according to claim 4 or 5,
characterized by
that a device (15a, 15b) for spacing the bearing unit (10a, 10b) from the container bottom (14) is provided. Guide device according to claim 6,
characterized by
that the device (15a, 15b) has struts (52) extending obliquely to the container bottom. Guide device according to at least one of the preceding claims,
characterized by
that it has a frame (70) for the submersible mixer (1), which contains two laterally extending, substantially U-shaped profiles (72), by means of which the frame (70) can be placed on the guide carriage (4). Guide device according to claim 8,
characterized by
that the profiles (72, 73) are pushed onto the tubes (60, 61) of the guide carriage (4) when the frame (70) is lowered.

Images