DE10218519C1 - Cleaning process for removing e.g. molding sand, turnings, coolant, coating, drilling dust or dirt, especially from part with narrow cavity, uses medium containing carbon dioxide, which is compressed, heated and decompressed - Google Patents

Abstract

In cleaning articles in a pressure vessel with compressed cleaning medium, which contains a gas and is compressed and decompressed once or several times, the cleaning medium contains carbon dioxide (CO2), which is compressed to over 500 bar and heated to over 150 deg C, then decompressed and cooled, so that the gas occupies a volume many times the volume of the compressed cleaning medium in the pressure vessel.

Description

The invention relates to a method for cleaning articles in a pressure vessel by means of a compressed cleaning medium containing a gas and one or more one after the other compressed and decompressed one after the other.

Generic cleaning methods and devices are described in DE 100 55 127 A1 and DE 199 06 849 A1.

Usually, when laser drilling turbine blades wax is used to wan the protect against unintentional damage by the laser beam. After Processing, the wax must be removed from the component again.

US Pat. No. 5,514,220 A1 describes such a cleaning method by means of a cleaning medium, that is in a near or supercritical state, d. H. in a state in which no distinction between liquid and gas is possible. Between a near- or supercritical state on the one hand and a supercritical state on the other hand, find peri Odor pressure changes to increase the solubility of the medium for certain To change contaminants. Impurities in one  Decompression phase can be precipitated, can be deposited. This means, With this method, only soluble impurities can be eliminated.

Insoluble impurities of moldings, for example manufacturing residues such as Foundry sand or chips, machining residues such as covering agents or boring dust, or accidental soiling such as dust, one removes conventionally on mecha niche way, for example, by intensive relative movement of a cleaning medium and the objects to be cleaned, wherein the cleaning medium mechanical Scouring agents can be added. But such cleaning methods are around the less effective the more complicated the objects to be cleaned are formed. It is particularly difficult to remove contaminants that are in depressions such as For example, blind holes or open cavities are located in the articles. at Cleaning with a normal cleaning medium is a simultaneous delivery and To ensure drainage of the medium, otherwise it comes to a jam without Replacement of the cleaning medium. The more complex, deeper and larger the pits are, the more difficult this process becomes.

The invention is therefore based on the object of a method and an apparatus for Specify particularly efficient cleaning of cavities in objects.

The invention is represented by the features of claim 1. The Further claims contain advantageous embodiments and further developments of the invention.

According to the invention, the cleaning of objects in a pressure vessel is carried out by means of a compressed cleaning medium. The cleaning medium contains a gas for this purpose and is compressed and decompressed one or more times in succession. The gas used in the cleaning medium is CO ₂ , which is compressed to a pressure above 500 bar and heated to a temperature above 150 ° C. It is then decompressed and cooled, so that the gas occupies a volume which is a multiple of the volume of the compressed cleaning medium in the pressure vessel.

The upper limit of the pressure is determined by economic-technical calculations determines and becomes i. d. R. 1000 bar.

The upper limit of the temperature is determined by the decomposition temperatures of the wax determines and becomes i. d. R. do not exceed 400 ° C.

According to the invention, the cleaning medium is decompressed so far that the gas relaxes and amounts to a multiple of the volume of the compressed gas preferably to a volume of the order of 100 times the volume of the volume compressed gas expands.

Alternatively, the cleaning medium may be a liquid in which the gas in the releases compressed state. In this case, decompression is done that is also a multiple of the volume of the compressed cleaning medium Gas is released.

When the gas relaxes or becomes free, depressions are created in the cleansing objects outward currents, the impurities effectively tear with it. Is the compression and decompression repeated carried out, with the impurities again and again from the cleaning medium can be deposited, very complex components can be cleaned very carefully become.

In a further development of the method is a non-gaseous substance in which the compressed cleaning medium is soluble and tends to be contaminated binds, applied to an object to be cleaned and / or in any open cavities are introduced into the article before the Subject is placed in the pressure vessel. The non-gaseous substance, the preferably liquid, plastic or pasty, in order to have a good connection to the To ensure contamination, forms so-called drag aids. By the Solubility with the compressed cleaning medium are the drag aids in the Decompression carried particularly well from the wells and drag while the impurities with. This can also be very heavy, very small or  very inaccessible impurities are reliably removed. If that Cleaning medium consists of carbon dioxide, are suitable Schlepphilfen commercially available alcohols, oils, fats or hydrocarbon-based waxes in which the carbon dioxide dissolves.

Both in the basic form of the procedure as well as in the training with Towing aids can clean the cleaning medium in the compression phase reach a supercritical state. It can also be during the whole Cleaning phase remain in a subcritical state, since the change of the Gas volume with the pressure, as for intensive effective source currents from the Recesses desired, in the subcritical area is the largest anyway.

If dragging aids are used, however, remnants of them can be left on the objects stick to it. Such residues of drag aids are preferably removed by that the cleaning medium at the end of the process, for example, once on a near or supercritical state is compressed. In this state dissolve suitable dragging aids are particularly good in the cleaning medium and are with this washed out.

In another embodiment of the method, the pressure vessel is in front of the Cleaning with one or more objects to be cleaned and with one Variety of solid packing substantially completely filled. In this case, must the pressure vessel be filled with much less cleaning medium, so that Compression work is saved.

The advantages achieved by the invention are in particular that the process surprisingly disproportionately increases the solubility of wax in CO ₂ under the conditions of supercritical CO ₂ at a pressure above 500 bar and a temperature above 150 ° C. As a result, it is sufficient to cyclically expose the cleaning container a few times (1-3 times) to these conditions to completely dissolve and remove the wax. Advantageously, the cleaning process, for example a turbine blade is reduced to about 2 to 20 minutes compared to previous cleaning times of up to 2 hours by the minimized process cost. In addition, the method is suitable for use in series production with corresponding cost advantages.

Further features and advantages of the invention will become apparent from the dependent Claims and from the following description of exemplary embodiments based on the drawing. Show:

Fig. 1a and 1b are schematic diagrams for illustrating the method of purification of complex parts,

FIGS. 2a and 2b are schematic diagrams illustrating a variant of the method of purification of complex parts, and

Fig. 3 representation of the solution components as a function of pressure at different temperatures.

Fig. 1a and 1b respectively show a closed pressure vessel 2, a complex mold part 4 is in the. The molding 4 includes a cavity 6 which is connected by a narrow opening 8 with the outside. The molded part 4 is any product that is contaminated, for example, with manufacturing residues such as foundry sand, chips or cooling lubricants, machining residues such as covering agents or boring dust, or accidental soiling such as dust. The drawn molding 4 may, for example, be a cast product contaminated with residues of foundry sand located in particular in the cavity 6 . However, the molding 4 can also be any other product containing any hard to reach areas, for example recesses, undercuts, holes, blind holes or channels, each forming a cavity 6 .

In order to remove the contaminants from the molding 4 , the pressure vessel 2 is opened, the molding 4 is placed in it, and the pressure vessel 2 is firmly closed. Via an inlet 10 , a highly compressed gas such as carbon dioxide is supplied or generated via pumps ( FIG. 1a). Once a desired pressure is reached, it decompresses spontaneously via inlet 10 ( Figure 2). The volume of the gas increases and gas escapes from the opening 8 . This gas flow entrains particles and other contaminants in the cavity 6 with it. To ensure that the gas flow is sufficiently intense, decompression should take place as quickly as possible. That is, the pressure balance between the interior of the pressure vessel 2 and z. B. the atmosphere should be much faster than the pressure equalization between the cavity 6 and the interior of the pressure vessel. 2

The pressures to which the gas is alternately compressed and decompressed are chosen so that the volume of the gas during decompression increases many times, for example, 200-fold. With such a large increase in volume, the source flow from the cavity 6 is intense enough for a strong cleaning effect. To remove impurities as much as possible, the compression and decompression are carried out repeatedly, the gas being filtered again and again, so that no impurities are flushed back into the cavity 6 .

Volume changes of the order of magnitude require a considerable amount of compression work, which accounts for a large part of the operating costs. The energy content of the pressure vessel 2 results as a product of pressure and residual volume (volume of the pressure vessel 2 minus the volume of the molded part 4 ). In order to reduce the residual volume, it is possible to fill a large number of compact packing elements 12 in the pressure vessel 2 in addition to the molded part 4 and possibly other articles to be cleaned, as shown in FIGS. 2 a and 2 b. The packing 12 are, for example, solid balls made of a material that resists the compression pressure without volume change. The minimization of the residual volume results in a proportional saving in the compression work to be applied.

In a further embodiment, the molding 4 is first provided with drag aids, before proceeding as described above. The drag aids are substances that are liquid plastic or pasty at the working temperature and in which the gas dissolves. If the gas is carbon dioxide, suitable drag aids are commercial alcohols, oils, fats or hydrocarbon-based waxes. The molded part 4 to be cleaned is coated or filled with the drag aids, the drag aids surrounding the contaminants and binding them physically or chemically to the contaminants. In the compression phase, the gas dissolves in the towing aids, and in spontaneous relaxation, the released gas tears the Schlepphilfen and thus the adhering impurities. The towing aids are expelled together with the impurities. In practice, however, it may happen that residues of the drag aids stick to the component. In this case, the component must be cleaned of the remaining drag aid residues by a subsequent supercritical extraction. For example, a wax as a drag aid dissolves very well in carbon dioxide, which is in a supercritical state.

Incidentally, certain types of contaminants may be possible To use impurities themselves as drag aids. Is carbon dioxide as Cleaning medium used, impurities act, for example in the form of Cooling lubricant or hydrocarbon-based masking agent itself as Towing assistance.

Fig provides. 3, the portions of the solution as a function of pressure for different temperatures. In particular, refer to curve that rises disproportionately at a pressure above 500 bar and a temperature above 150 ° C, the solution portion, so that a short cleaning cycles for complete removal of Wax from components are sufficient.

Claims (7)

A method of cleaning articles in a pressure vessel by means of a compressed cleaning medium containing a gas which is compressed and decompressed one or more times successively, characterized in that the cleaning medium contains CO ₂ which compresses to a pressure above 500 bar and is heated to a temperature above 150 ° C, and then decompressed and cooled so that the gas occupies a volume which is a multiple of the volume of the compressed cleaning medium in the pressure vessel ( 2 ; 20 ). 2. The method according to claim 1, characterized in that the cleaning medium consists exclusively of CO ₂ . 3. The method according to claim 1 or 2, characterized in that a non-gaseous substance in which the compressed cleaning medium is soluble and which tends to bind to impurities applied to an object to be cleaned ( 4 ) and / or in any open cavities ( 6 ) is placed in the article before the article is placed in the pressure vessel ( 2 ; 20 ). 4. The method according to claim 3, characterized in that the non-gaseous Fabric is liquid, plastic or pasty.   5. The method according to claim 4, characterized in that the non-gaseous Substance contains alcohol, oil, fat and / or hydrocarbon-based wax. 6. The method according to claim 3 and claim 5, characterized in that the cleaning medium after cleaning the objects of impurities is compressed to a near- or supercritical state in which the non-gaseous substance is soluble in the cleaning medium to any residues of not gaseous substance from the objects ( 4 ) to remove. 7. The method according to any one of the preceding claims, characterized in that the pressure vessel ( 2 ) prior to cleaning with one or more objects to be cleaned ( 4 ) and with a plurality of solid packing ( 12 ) is substantially completely filled.