EP0361129A2 - Method and device for cleaning bottles - Google Patents

Abstract

This is a device for cleaning gas cylinders by spraying their insides with a liquid. It is proposed that the gas cylinder 3, in particular an acetylene cylinder, which is to be freed from old safety substance, is positioned during cleaning with the cylinder opening 5 inclined downwards and that the liquid is introduced into the cylinder opening 5 axially in relation to the cylinder 3 through a pipe extension 8 having a nozzle 9.

Description

The invention relates to a method for cleaning a bottle having a bottle opening by injecting a liquid under pressure into the bottle and a device for carrying out the method.

If bottles are to be used again after they have been used, it is usually necessary to clean the bottles. In the case of gas bottles in particular, it is necessary to clean the inside of the bottle from time to time before the gas bottles can be filled with gas again.

Especially with acetylene steel bottles that have a porous safety compound inside the bottle, it may be necessary to remove them. In the case of old acetylene bottles, a bulk mass was used as the safety mass, which has significant disadvantages compared to the monolithic masses used today. There With acetylene cylinders with bulk material only a lower gas load is possible, higher transport costs are incurred. There is also the risk that undesirable cavities will form in the bulk material due to the setting or grinding of the bulk material. In order to be able to reuse the steel cylinders of the old acetylene cylinders, the bulk material must be removed without damaging the steel cylinder itself. The bottle can then be prepared with the new monolithic mass.

If there are manufacturing defects or damage during use, monolithic masses must also be removed from the steel bottle so that they can be reused.

For cleaning, the bottles were previously lifted onto a trestle using muscle power and sprayed out in a horizontal position using a high-pressure water lance. After the cleaning process, the half-filled bottle is taken down and clamped in a separate bottle swivel device for emptying.

The conventional cleaning method is therefore associated with heavy physical work. In addition, water collects in the bottle during the cleaning process, which cannot drain off by itself. This water brakes the water jet from the high pressure water lance, reduces the cleaning effect and increases the required spraying time. In addition, the bottle must be clamped in a swivel device for emptying, which means additional work.

The present invention is therefore based on the object of designing a method of the type mentioned at the outset and an apparatus for carrying out the method in such a way that the cleaning performance is increased and the heavy physical work is reduced.

• a) die Flasche so geneigt wird, daß die Flaschenöffnung schräg nach unten zeigt, und
• b) die Flüssigkeit durch eine eine Düse aufweisende Rohrlanze axial zur Flasche in die Flaschenöffnung eingebracht wird.

This object is achieved in that

• a) the bottle is inclined so that the bottle opening points obliquely downwards, and
• b) the liquid is introduced into the bottle opening axially to the bottle through a pipe lance having a nozzle.

Since the bottle is positioned at an incline during the cleaning process, the liquid contaminated with contaminants or safety compound can flow out of the bottle by itself. The liquid jets from the nozzle hit the bottle wall without being braked, so that impurities stuck to the wall and / or the safety compound can be easily removed.

The bottle is expediently inclined at an angle of approximately 30 ° to approximately 90 ° to the horizontal. It has proven to be particularly advantageous to position the bottle at an angle of approximately 30 ° with the bottle opening pointing downwards during the cleaning process.

In a particularly preferred embodiment of the invention, the nozzle with the pipe lance on the longitudinal axis of the bottle is pushed into the bottle through the bottle opening. Within the bottle, three or more liquid jets are emitted from the nozzle both in the axial direction and to the side in an angular range from approximately 30 ° to approximately 150 °.

It is also expedient to use water as the liquid. However, it is also possible to inject a special solvent into the bottle, which can detach the contaminants or the safety compound from the bottle wall even better.

In a further development of the inventive concept, it is provided to set the pipe lance and / or the bottle in rotation. This creates a grinding effect, as a result of which the impurities and / or the safety compound are released more quickly and removed from the bottle. It is particularly advantageous to set the pipe lance and the bottle in counter-rotating rotation.

According to a particularly preferred embodiment of the invention, before cleaning, the bottle is placed vertically with the liquid opening pointing upwards in a holder which is in a starting position. The holder is then pivoted about a horizontal axis until the bottle is inclined at an angle of approx. 30 to approx. 90 ° to the horizontal. In this inclined position, which is to be referred to as the working position, the liquid opening points obliquely downwards. Then will the liquid is injected from the nozzle attached to the pipe lance, which is inserted axially to the bottle into the bottle opening. The impurities and / or the safety compound detach from the bottle wall and are washed out of the bottle with the liquid. If the impurities and / or the safety compound are largely removed, the holder is returned to the starting position and the cleaned bottle is removed.

The invention is particularly intended for the cleaning of pressurized gas bottles, but is also applicable to the cleaning of other bottles, e.g. Storage bottles for liquids etc., applicable. The invention is particularly suitable for the cleaning of acetylene bottles which, because they are equipped with a porous safety compound, make special demands on cleaning. On the one hand, the safety compound should be able to be completely removed from the bottle, but on the other hand, the bottle wall must not be damaged. In particular in the case of acetylene bottles which are filled with a bulk material or a monolithic material, the invention enables the porous material to be removed gently and completely, so that the bottles can be prepared with a new safety material.

A device for carrying out the method has a holder for receiving the bottle and a pipe lance with a nozzle for introducing the liquid into the bottle.

According to the invention, the pipe lance is arranged at an angle of approximately 30 ° to approximately 90 ° with the nozzle pointing upwards and inclined to the horizontal. The bottle clamped in the holder is arranged for cleaning so that the bottle opening and the nozzle of the high pressure lance lie on a common axis.

The pipe lance is preferably designed to be displaceable in the axial direction to such an extent that the nozzle can be positioned within the bottle. For this purpose, the pipe lance is expediently connected to a spindle drive for moving the pipe lance. In this way, the nozzle with the pipe lance can be inserted into the bottle through the bottle opening. In addition to at least one opening in the axial direction of the pipe lance, the nozzle preferably has at least two lateral openings. This enables the bottle to be effectively ejected.

In a particularly expedient embodiment of the invention, the holder is designed to be pivotable. For this purpose, the holder has a pivoting device, by means of which the holder can be pivoted from a starting position, in which the bottle with the bottle opening pointing vertically, into a working position in which the bottle opening and the nozzle of the pipe lance lie on a common axis is. The bottle can therefore be placed upright in the holder and then tilted into the working position. In the working position, the bottle can be sprayed out using the pipe lance.

In a development of the inventive concept, the pipe lance is guided through a guide funnel arranged in a spray chamber. The guide funnel in the spray chamber is mounted so that it lies in the working position with the bottle opening on a common axis. The bottle opening is directly connected to the guide funnel of the spray chamber, so that the liquid escaping from the bottle during the cleaning process and the contaminants thus flushed out or the safety compound flow into the spray chamber. A collecting device is advantageously arranged in the spray chamber, through which the contaminants and / or safety mass particles washed out with the liquid can be discharged. This collecting device can e.g. be designed as a funnel, which is installed below the guide funnel of the spray chamber. The funnel usefully opens into a tube through which the contaminated liquid runs off.

A particularly advantageous embodiment of the invention provides for the tubular lance to be made rotatable about its own axis. Furthermore, the holder expediently also has a device for rotating the bottle about its own axis. In this way, the bottle and pipe lance can be set in counter-rotation, which further increases the cleaning effect.

In the following, the invention will be explained in more detail using an exemplary embodiment schematically illustrated in the drawing.

The figure shows an ejection machine for cleaning gas bottles.

In the figure, a swivel carriage 1 is shown, which has a holder 2 for the gas bottle 3. The swivel carriage 1 can be rotated from a starting position shown in dashed lines into a working position drawn with solid lines about a horizontal axis 4. In the working position, the gas bottle 3 is inclined by approximately 30 ° to the horizontal. The bottle opening 5 points obliquely downwards. The bottle opening 5 is adjoined by a spray chamber 6, which has an opening opposite the bottle opening 5 with a guide funnel 7. A high-pressure water lance 8 with a nozzle 9 is arranged on a guide carriage 10 in front of the spray chamber 6. The high pressure water lance 8 with the nozzle 9 lies with the bottle opening 5 and the guide funnel 7 of the spray booth 6 on a common axis. Drives for the movement of the high-pressure water lance 8 in the axial direction and for their rotation are accommodated in the guide carriage 10. The ejection machine is surrounded by a protective grille 11.

When the ejection machine is in operation, the gas bottle 3 is placed with the bottle opening 5 upward into the holder 2 which is shown in the starting position shown in dashed lines. Then the swivel carriage 1 is brought into the working position. The gas bottle 3 is now inclined downwards, the bottle opening 5 connects to the opening 7 of the spray chamber 6. Now the high pressure lance 8 in Put into operation and moved through the guide funnel 7 into the bottle. The water jets emerging from the nozzle 9 hit the inner wall of the gas bottle 3 without weakening, detach the contaminants adhering to the inner wall or the safety compound and wash them out of the gas bottle. To increase the cleaning effect, the high-pressure lance 8 and the gas bottle 3 are rotated in opposite directions. This creates a grinding effect, which accelerates the dissolving and the discharge of the impurities or the filling compound. The contaminants washed out with the water or the safety compound are collected in a funnel 13 installed in the spray chamber and drawn off through the pipe 12. After the cleaning process has ended, the swivel device 1 is brought back into the starting position and the cleaned gas bottle 3 is removed.

Claims (19)

1. A method for cleaning a bottle having a bottle opening by injecting a liquid under pressure into the bottle, characterized in that a) the bottle (3) is inclined so that the bottle opening (5) points obliquely downwards, and b) the liquid is introduced axially to the bottle (3) into the bottle opening (5) through a pipe lance (8) having a nozzle (9). 2. The method according to claim 1, characterized in that the nozzle (9) with the pipe lance (8) is pushed into the bottle. 3. The method according to claim 2, characterized in that from the nozzle (9) three or more liquid jets are emitted both in the axial and to the side in an angular range of approximately 30 ° to approximately 150 °. 4. The method according to any one of claims 1 to 3, characterized in that the bottle (3) is inclined at an angle of approximately 30 ° to approximately 90 °, preferably approximately 30 °, against the horizontal. 5. The method according to any one of claims 1 to 4, characterized in that the pipe lance (8) and / or the bottle (3) are set in rotation. 6. The method according to claim 5, characterized in that the pipe lance (8) and the bottle (3) are rotated in opposite directions. 7. The method according to any one of claims 1 to 6, characterized in that a) before cleaning, the bottle (3) is placed vertically with the bottle opening (5) pointing upwards in a holder (2) in an initial position, b) the holder (2) is pivoted about a horizontal axis until the bottle (3) is inclined at an angle of approx. 30 ° to approx. 60 ° to the horizontal and the bottle opening (5) points downwards, c) the liquid is then introduced through a pipe lance (8) having a nozzle (9) axially to the bottle (3) into the bottle opening (5) and d) the holder (2) is returned to the starting position and the cleaned bottle (3) is removed. 8. The method according to any one of claims 1 to 7, characterized in that a compressed gas bottle is used as the bottle (3). 9. The method according to claim 8, characterized in that an acetylene bottle is used as the compressed gas bottle (3). 10. The method according to claim 9, characterized in that the acetylene bottle (3) is filled with a bulk or monolithic mass and the bulk or monolithic mass with the liquid is sprayed out of the acetylene bottle (3). 11. The method according to any one of claims 1 to 10, characterized in that water is used as the liquid. 12. Device for performing the method according to one of claims 1 to 11 with a holder for receiving the bottle and a pipe lance having a nozzle for introducing the liquid into the bottle, characterized in that a) the pipe lance (8) is arranged at an angle of approximately 30 ° to approximately 90 ° with the nozzle (9) pointing upwards and inclined to the horizontal b) the holder (2) for cleaning the bottle (3) is arranged so that the bottle opening (5) and the pipe lance (8) lie on a common axis. 13. The apparatus according to claim 12, characterized in that the pipe lance (8) is designed so far in the axial direction that the nozzle (9) within the bottle (3) can be positioned. 14. The apparatus according to claim 13, characterized in that the pipe lance (8) is connected to a spindle drive for moving the pipe lance (8). 15. Device according to one of claims 12 to 14, characterized in that the holder (2) from a starting position in which the bottle (3) with the bottle opening (5) is positioned vertically pointing upwards, in a working position in which the bottle opening (5) and the nozzle (9) of the pipe lance (8) lie on a common axis, is pivotable. 16. Device according to one of claims 12 to 15, characterized in that the pipe lance (8) is guided in a guide funnel (7) which is arranged in a spray chamber (6), and the bottle opening (5) in the working position of the holder (2) is connected to the funnel guide (7) of the spray chamber (6). 17. The device according to one of claims 12 to 16, characterized in that a collecting device (11) for liquid flowing out of the bottle is arranged in the spray chamber (6). 18. Device according to one of claims 12 to 17, characterized in that the tubular lance (8) is rotatable about its axis. 19. Device according to one of claims 12 to 18, characterized in that the holder (2) has a device for rotating the bottle (3) about its axis.

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