EP0724917B1 - Device for cleaning the inner surfaces of a wine cask - Google Patents

Abstract

An arrangement for cleaning the inner wall of a wine barrel, comprises a supply line for water, ≥ 1 water outlet nozzle which can be rotated about a second axis which is at an angle to a primary axis and a suction line. The rotational impulse of the nozzle (76,78) rotating about the second axis (62) and turning about the first axis (52), is different to the outlet channel position, so the nozzle has a rotational movement about the primary axis which is > 200.

Description

TECHNICAL AREA

The invention relates to a device for cleaning the inner wall of a wine barrel. In connection with winemaking and wine storage it is necessary to the inside of the To clean wine barrels. When cleaning the inner wall of wine residues, which are in the cracks and crevices of the barrel wall have fixed, be removed. Also wine sludge remains, that have settled thickly in the bottom of the barrel, must be removed from the wine barrel. To do this, this more or less mushy mud whirled up with water and aspirated. Even on an inner wall of the wine barrel set tartar must be loosened during cleaning and out of the Barrel to be removed. The cleaning is preferably done only with water, without adding solvents. However, this sets ahead that a sufficiently strong water jet against the entire inner wall of the wine barrel is directed.

STATE OF THE ART

From DE-OS 26 31 902 a device and a method known for cleaning the inside of a boiler. This The device has several arms, each of which is a spray nozzle carry. The arms can be swung up and down as well as being turned sideways. In addition there is one joint rotation of all arms around a vertical axis possible. Controlling the nozzle heads and moving the arms takes place via a special control. Such Control can e.g. thanks to pneumatic piston-cylinder units be realized. The control device is outside of the boiler to be cleaned.

From DE-PS 32 10 339 is a device for cleaning Containers known by means of a pressure jet. The nozzle of this The device has several eccentrically to its longitudinal axis aligned water outlet channels. The longitudinal axes of this Outlet channels do not cut through the longitudinal axis of the nozzle. As a result, the nozzles are in one when water escapes Rotational movement brought about their common longitudinal axis.

Another device for cleaning is known from DE-A1 0 320 399 a vessel known, in contrast to the above Device by arranging an additional Nozzle the nozzle head around a vertical axis, for example can be rotated. The nozzle head rotates with it on the one hand about its longitudinal axis and on the other hand it rotates around another axis that is oriented transversely to its axis of rotation is. The rotational movement is determined by a first one Group of orifices on the nozzle head causes while the rotary movement by another, additionally provided Exit opening is realized. That from this for turning of the nozzle head provided further outlet opening Water has no practically usable cleaning effect.

PRESENTATION OF THE INVENTION

The invention has for its object an improved Device for cleaning the inside wall of a wine barrel specify the technically simple and economically favorable can be operated and used.

This invention is characterized by the features of claim 1 given. Starting from that known in the prior art Device for cleaning the inside wall of a wine barrel accordingly, this device is distinguished according to the invention characterized in that the angular momentum of the rotating and additional depending on another axis rotating nozzle so different from the rotational position of their outlet channel is large that related to an angle of rotation of 360 degrees, the nozzle has an effective torque around the axis of rotation has a total value greater than zero. The Invention uses the knowledge that it is known through a eccentrically arranged nozzle outlet opening a nozzle to bring it into rotation. However, such a nozzle cannot additionally in rotation about a transverse to this axis of rotation aligned axis of rotation can be rotated. Lift while rotating the torques acting on the axis of rotation on, so that with a rotation of 360 degrees in total gives a torque of zero. The invention creates the additional rotational movement is not due to an additional one Exit opening, as for example from EP-A1 0 320 399 is known, but changes the angular momentum of the rotating nozzle during its rotation. This can be a Remaining torque is greater with a rotation angle of 360 degrees Zero can be realized. This residual torque can then for additional rotation of the nozzle around an additional axis of rotation be exploited.

The changeable angular momentum can, according to a further development of Invention by changing the amount of exiting the nozzle Water can be realized. For example, in one first rotation angle range that leaves the rotating nozzle Amount of water can be greater than 360 degrees supplementary second rotation angle range. This leaves based on 360 degrees, an impulse force greater than zero remains can then be used for the additional rotational movement. A simpler constructive training for a corresponding Device is the subject of the dependent claims and also embodiment shown in the drawing.

For varying the impulse force depending on the rotational position of the nozzle or nozzles and thus for variation the amount of water that leaves the nozzle or nozzles, can be an annular space upstream of the outlet openings be provided by the incoming and outgoing water is flowed through and a line connection with the rotating Nozzle has such that the nozzle is only in certain Rotational positions above the opening.

In this way, for example, two or more nozzles distributed around the circumference to form a nozzle head. The nozzle head is set in rotation by the fact that the Several nozzles present off-center to the axis of rotation Leak the water out of the head. The inflow to the nozzles takes place evenly through the nozzles connecting annulus. The annulus is through an inflow opening fed that line with the inflow line connected is. As soon as one of the nozzles rotates positioned above the inlet opening can pass through this nozzle escaping more water. The momentum is from this Nozzle larger than the other nozzles in this one Rotation position not positioned exactly above the access opening are. Because the access opening in a certain Alignment is fixed in terms of rotation, gets the Nozzle head always an additional impulse during its rotation. This additional impulse that goes beyond a given Rotation angle range is present, causes the at resulting in a rotation of 360 degrees Get partial impulse forces greater than zero.

In this way, it is not just a rotation of the nozzle head around its axis of rotation but an additional rotary movement of the nozzle head, for example, about one to the axis of rotation vertical axis of rotation possible. It is important that this too the two rotations used water completely to Cleaning the inside wall of a wine barrel is available stands; the one generating the rotary motion and the rotary motion Water comes out of the respective nozzles completely rotating on the nozzle head.

The device according to the invention is characterized by a further embodiment characterized in that in the Nozzle head opening an open in its end area Surrounds suction line concentrically. So it is possible the water emerging from the nozzle head at the same time to suck from the wine barrel. This arrangement is also space-saving in cross-section.

The entire device can be in the area of a feed and a Drain hose are provided. It made sense highlighted, at least the areas of the suction line and the supply line, which is rotating in the area and itself rotating nozzle head lie to form rigid. In order to can the entire device as an overall rigid, in Cross-section space-saving rod-like structure through the Bunghole of a wine barrel in a simple way in the wine barrel used, parked there like a rack and after completion can be removed for cleaning.

Further refinements and advantages of the invention are the in the claims further listed features and the see the following embodiment.

BRIEF DESCRIPTION OF THE DRAWING

Fig. 1

eineperspektivische, teilweise geschnittene Darstellung einer Vorrichtung zum Reinigen der Innenwandung eines Weinfasses nach der Erfindung,

Fig. 2

eine schematisierte Schnittdarstellung des Düsenkopfes dieser Vorrichtung gemäß Fig. 1,

Fig. 3

einen Längsschnitt durch die erfindungsgemäße Vorrichtung gemäß Fig. 1 und 2.

The invention is described and explained in more detail below with reference to the embodiment shown in the drawing. Show it:

Fig. 1

a perspective, partially sectioned illustration of a device for cleaning the inner wall of a wine barrel according to the invention,

Fig. 2

2 shows a schematic sectional illustration of the nozzle head of this device according to FIG. 1,

Fig. 3

2 shows a longitudinal section through the device according to the invention according to FIGS. 1 and 2.

WAYS OF CARRYING OUT THE INVENTION

A cleaning device 10 can by a in a wine barrel 14th existing bung hole 12 are inserted (Fig. 3). In a more detailed manner, this can then be used Cleaning device 10 by means of the inside of the wine barrel 14 water emerging from the cleaning device 10 can be cleaned.

The cleaning device 10 has an outer tube 16. The tube 16 is closed at its upper end 18. About one in the area this end 18 connected pipe section 20 can a hose connection connected to the pipe section 20 water be passed into the interior of the tube 16.

Another tube 22 is inserted in the tube 16. This tube 22 leads out from the end 18 to the outside. This inner Tube 22 is open at its lower end 24 (Fig. 3). In the area of this lower end 24 are on the inner tube 22nd foot-like stand 26 attached. In this way, the inner Pipe 22 placed on the bottom 28 of the wine barrel 14 be that the lower, open end 24 of the tube 22 at a distance is positioned to the floor 28.

Below the pipe section 20 and thus still in the area of Wine barrel 14, the outer tube 16 of a bearing sleeve 44th surround. This bearing sleeve 44 is over two grub screws 46 firmly attached to the tube 16. Below the range of the Set screws 46, but still within the area of the sleeve 44, the tube 16 has a joint 48. Below the joint 48 the pipe 16 continues in a pipe section 50.

The pipe section 50 moves up to a sleeve 30 which is the lower End of the inner tube 22 surrounds. This sleeve 30 is via staggered grub screws 32 immovably held the tube 22. The sleeve 30 has an annular Shoulder 34 on which the pipe section 50 with its lower Sitting in the end of 36. The sleeve 30 projects with one annular projection 38 in the between the pipe section 50 and the inner tube 22 existing space 40. This can the pipe section 20 into the pipe 16 and in the pipe section 50 does not discharge water from the bottom Flow out pipe section 50. A small leak in the joint area between the shoulder 34 and the sleeve 30 and the lower End 36 of pipe section 50 is irrelevant.

The pipe section 50 can thus around the common longitudinal axis 52 of the two tubes 16, 22 can be rotated. At this turn the pipe 16 remains untwisted with its pipe section 20. At the rotation of the pipe section 50 slides in the area of the upper Butt 48 on the lower end of the tube 16 and with its lower end 36 on the shoulder 34 of the sleeve 30. This Rotation is by exiting from a spray head 54 Water 56, which is fastened to the tube section 50, causes.

The spray head 54 has a pipe section 60, the longitudinal axis of which 62 across, i.e. in the present case at an angle of 90 Degree, aligned with the longitudinal axis 52 of the tubes 16, 50, 18 is. The tube piece 60 is at one end 64 in the Wall of the pipe section 50 screwed so that its interior 66 is in line with the space 40. The other end of this pipe section 60 is through an end wall 68 closed. In the pipe section 60 is one - in the present Example case only - opening 70 is present. This Opening 70 creates a conduit connection between the interior 66 and an annular space 72 surrounding the pipe section 60.

This annular space 72 is laterally framed by a plurality of in the present example, two nozzles 76, 78 carrying Runner 80. This runner 80 is framed on one side from the pressure pipe 50 and on the other hand from one of the End wall 68 of radially projecting annular shoulder 82. The runner 80 is on the one hand on the outside of the pipe section 60 and on the other hand on the side delimiting it Surfaces of the tube section 50 and the shoulder 82 slidably held.

The rotor 80 has several, in the present example case two nozzles 76, 78 screwed into it. Those in the nozzles trained outlet channels 84, 86 open into the annular space 72 in. The longitudinal axis 88 of each nozzle 76, 78 is spaced apart r (FIG. 2) to the longitudinal axis 62 of the pipe section 60 in this way, the spray head can be discharged by water 56 54 are set in rotation about the axis 62. That from the Nozzles 76, 78 leaking water 56 can thus be the inner wall clean the wine barrel 14.

The nozzles 76, 78 are injected into the annular space 82 Water supplied. This applies in the present example for both nozzles 76, 78 too. The following applies to the nozzle 76 additionally the following. In the illustrated in the figures Position is the nozzle 76 with its outlet channel 84 the opening 70 positioned in the pipe section 60 is. This allows the inflow from the interior 66 Exit water directly through nozzle 76. From the nozzle 76 will be more in the position shown in the drawing Leaving water than simultaneously from the other nozzle 78 exit. The amount of water exiting the nozzle 76 causes an impulse force 90 greater than that of the nozzle 78 simultaneously assigned impulse force 92. By the two impulse forces 90, 92, the spray head 54 rotates 93 µm brought the axis 62. In addition, the impulse force 90 causes which in the present example with increasing and decreasing Size in the area of an angle window 94 acts in algebraic Addition with the other impulse force 92 a residual impulse force, which is the result of the algebraic addition of the two Impulse forces 90, 92 results. This residual momentum force is only within this window 94 greater than zero and thereby within a given direction, causes one around Longitudinal axis 52 acting torque. The spray head 54 will due to this residual impulse force (impulse force 90 minus Impulse force 92) rotated about the longitudinal axis 52. This rotation is only effective because the two impulse forces 90, 92 are not the same size. If they were the same size, they would refer a residual impulse force at a rotation angle of 360 degrees result from zero. The spray head 54 thus gets whenever one of the nozzles 76 or 78 with its outlet channel always gets into the area of the opening 70 angular momentum acting in the same direction around the axis 52.

Instead of one opening 70, a plurality of openings can also be circumferential be distributed on the pipe section 60. It is just make sure that depending on the number of existing nozzles 76, 78 in a first rotation range more water escapes than in the other supplemented to 360 degrees Rotation range. This can be done through different distribution of the openings and / or through openings of different sizes be realized. It would also be technically possible for the water to flow in into the nozzles depending on their rotational position to design differently. This could be due to External control or by self-control of the spray head 54 be made possible. The spray head 54 could thus rotate act on corresponding tax bodies. It is possible also, by acting differently on the spray head 54 To provide frictional forces for a residual impulse force.

The speed of rotation depends on the size of the residual impulse force of the spray head 54 about the longitudinal axis 52. So could for example through an opening 70 more or less closing slide influence the speed of rotation be taken. The size of the rotation speed can also be constructive by the size of the eccentricity r Be influenced. Both the speed of rotation as well as the rotation speed must for the present Intended use should not be chosen very large. Not the Speed but the exit speed and thus the force with which the escaping water hits the inner wall of the wine barrel 14 is for cleaning purposes mainly authoritative.

The present device has, apart from the constructive simple and technically fully satisfactory solution Advantage that they need space can be built very small. The device can thus without further through the 14 bung holes in wine barrels 12 can be easily inserted and exported.

The water emerging from the spray head 54 can from the Suction pipe 22 sucked out of the wine barrel 14 at the same time will. The loosened dirt particles are then removed during suction also with through the suction pipe 22 from the wine barrel 14th promoted. If necessary, this can be done from the wine barrel 14 water led out through a filter arrangement and then used again for cleaning.

It would be technically possible to use the device without the integrated Suction pipe 22 to use. The suction pipe 22 could then be positioned next to the tube 16. It would also be possible to loosen the dirt first and then after Removing the cleaning device 10 a suction pipe 22 in the Introduce wine barrel 14 and the splashed water together suck off with the detached dirt from the wine barrel 14.

Instead of water, the same could be done with solvents mixed water or another liquid or Cleaning liquid can be used.

Claims (10)

1. Device for cleaning the interior wall of a wine vat, having

   a water-supply line which can be inserted into the interior of the wine vat,

   at least one water-outlet nozzle at the end of at least one water-outlet duct which can be connected in line with the supply line,

   this nozzle being rotatable about a second axis, which is aligned transversely to a first axis, and also being pivotable about this first axis,

   the longitudinal axis of the outlet duct of this nozzle not crossing the second axis, at least in the region of its outlet opening,
   characterized in that

   the angular momentum of the nozzle (76, 78) rotating about the second axis (62) and pivoting about the first axis (52) varies, as a function of the rotational position of its outlet duct (84, 86), in such a manner that

   based on a rotational angle about the second axis (62) of 360 degrees, the nozzle (76, 78) has a moment of momentum which is effective about the first axis (52) and the value of which is greater than zero.
2. Device according to Claim 1, characterized in that the momentum force of the water leaving the nozzle (76, 78) is varied as a function of the rotational position of its outlet duct (84, 86).
3. Device according to Claim 1 or 2, characterized in that the amount of water leaving the rotating nozzle (76, 76) is varied as a function of its rotational position.
4. Device according to Claim 3, characterized in that

   the amount of water entering the outlet duct (84, 86) of the rotating nozzle (76, 78) is varied as a function of the rotational position of the outlet duct (84, 86).
5. Device according to one of the preceding claims, characterized in that

   the admission opening (70, 72) for the water into the outlet duct (84, 96) is varied as a function of the rotational position of the outlet duct (84, 86).
6. Device according to one of the preceding claims, characterized in that

   a supply line (16) which is closed on the endside and has a line section (50) which is rotatable about its longitudinal axis (52) is provided,

   a line connection piece (60) is attached to the line section (50), the longitudinal axis (62) of which connection piece is aligned transversely to the longitudinal axis (52) of the line section (50),

   the interior (66) of the line connection piece (60) is connected in line with the interior of the line section (50),

   a rotor (80) having at least one outlet duct (84, 86) is provided in a manner such that it can rotate on the line connection piece (60),

   the line connection piece (60) has at least one admission opening (70, 72) which opens into the outlet duct (84, 86),

   the outlet duct (84, 86) is provided on the rotor (80) in such a manner that the rotor (80) can be made to rotate about the longitudinal axis (62) of the line connection piece (60) by means of water flowing out of the outlet duct (84, 86),

   an annular space (72) surrounds the line connection piece (60), which space is connected in line on the one hand to the line connection piece (60), via the at least one admission opening (70), and on the other hand to the outlet duct (84, 86).
7. Device according to Claim 6, characterized in that

   plurality of admission openings (70) into the outlet duct (84, 86) are provided distributed around the circumference of the line connection piece,

   the sum of the cross-sectional openings in a first rotational-angle region is greater than in the second rotational-angle region which is explemented to 360 degrees.
8. Device according to one of the preceding claims, characterized in that

   the supply line (16), at least in the region (50) of its rotatable and pivotable nozzle (76, 78), concentrically surrounds an extraction line (22) which is open in its end region (24).
9. Device according to one of the preceding claims, characterized in that

   the region of the extraction line (22) and/or supply line (16), which lies in the region (50) of the rotating supply-line section, is of a flexurally rigid design.
10. Device according to one of the preceding claims, characterized in that

    it can be inserted through the bunghole (12) of a wine vat (14) into the wine vat (14).

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