AT500610A4 - PROCESS FOR CLEANING WORKPIECES - Google Patents

Abstract

The method involves positioning workpieces (2) in a cleaning chamber (1). The workpieces are subjected with a cleaning medium in the form of gas e.g. compressed air, to blow-off adhesive work media and work residues. The blow-off of the media and residues takes place by a number of individual blasts of the medium on the workpieces. The blasts are directed in three groups on the workpieces with different impinging angles. An independent claim is also included for an apparatus for cleaning adhesive work media and work residues of workpieces.

Description

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The invention relates to a method for cleaning workpieces of adhering working media and / or work residues, in which the workpieces are introduced into the cleaning chamber and are acted upon in the cleaning chamber with a gaseous cleaning medium to blow off the adhering working media and / or work residues.

In the manufacture of complex workpieces, such as some cylinder heads of internal combustion engines, usually many different machining operations are performed one behind the other. Between these operations it is necessary to carry out measuring operations in order to check the work progress and to allow a quality control. Many of the machining operations are associated with contamination of the workpiece, which manifests itself, for example, in the fact that cooling medium or scouring oil adheres to the workpiece or chips of machining operations on the workpiece remain. To enable accurate and unadulterated measurements, it is necessary to remove these residues from the relevant parts of the workpiece, which is currently usually done in such a way that the workpieces are manually blown with compressed air guns. The problem with this is that even when using complex noise-reduced compressed air guns a large noise occurs. In addition, in manual cleaning, the adhering residues are atomized and so on the one hand a risk of injury and on the other hand, a pollution that pollutes the air at the workplace of the person.

In addition to these disadvantages, it should be noted that manual cleaning, especially for complex workpieces, is labor-intensive, thereby not only causing labor costs, but also slowing down production.

A known alternative to manual cleaning are cleaning machines in which the components are first exposed to a liquid cleaning medium and then dried. Such cleaning machines are extremely expensive and costly and cause by the required cycle times a significant slowdown of the production process.

From EP 0 158 904 A a method and a device for cleaning bodies of adhering dust is known. The bodies, such as metal containers for audio or video tapes, are transported through a cleaning lock and supplied with forced air. Such a device is well suited for cleaning articles when the contaminant is primarily from

Dust exists. The cleaning of workpieces that are contaminated with residues such as chips, honing oil or the like is not possible with such a device.

DE 29 36 779 A shows a device for cleaning motor vehicle brakes, in which the brake to be cleaned is covered by a suction hood and is acted upon by movable nozzles with compressed air. A similar device for cleaning air filters is described in US 4,808,234 A. However, it has been found that in practice such devices are not able to provide sufficient cleaning of workpieces within a short time.

Object of the present invention is to develop the method of the type described above so that even with firmly adhering and difficult to remove impurities within a short time sufficient cleaning is achieved. The noise emissions should be minimized and the risk of injury as well as the pollution of the indoor air should be minimized. Furthermore, the device should be simple and inexpensive to produce and have a small footprint.

Another object of the present invention is to provide an apparatus for carrying out such a method.

According to the invention, the ablation is performed by a multiplicity of individual beams which are directed onto the workpiece in at least three groups, each group having a different angle of incidence on the workpiece. An essential aspect of the present invention is that the loading of the workpiece by the individual jets so that selectively a sufficiently high energy is achieved to remove even firmly adhering impurities. It is also important that the individual beams are directed in different directions on the workpiece, on the one hand to reach concave or hard to reach area of the workpiece and on the other hand, to facilitate the detachment of firmly adhering residues.

In the method according to the invention, the individual rays slide over the workpiece like a spatula and clean it of the adhering residues,

As a cleaning medium according to the invention primarily compressed air is provided, since this is easily available and inexpensive. For special applications, however, it may also be appropriate to use other cleaning media, such as - ····················································································· · ······ · | For example, inert gases such as nitrogen, if issues of explosion protection or prevention of corrosion are essential, for example.

The process of the invention can be used particularly favorably if the pressure of the cleaning medium is between 0.5 bar and 10 bar, preferably between 0.9 bar and 8 bar.

Another particularly advantageous embodiment variant of the method according to the invention provides that the workpiece is moved relative to the cleaning chamber. In this way, it is possible to reliably subject all areas of the workpiece to cleaning, thereby reliably preventing material entrainment in the respective next processing step. In a first embodiment of the method, which provides a relative movement, the workpiece is rotated inside the cleaning chamber. In relatively compact workpieces, such as some cylinder heads or the like, it is possible in this way to cause a relative movement of the workpiece within a cleaning chamber, the dimensions of which are not substantially greater than that of the workpiece. It is particularly advantageous if a first group of individual jets are directed in an angle against the direction of rotation a second group of individual jets in one direction in the direction of the axis of rotation and a third group of individual jets in the direction of rotation on the workpiece. It has been found that a particularly favorable cleaning effect can be achieved by such a design. In addition to this inclination, the individual beams may also be inclined at an angle relative to the normal plane to the axis of rotation in order to detect less accessible areas of the workpiece.

Alternatively to the rotation of the workpiece, a translatory movement may also be provided. It is preferably provided that a first group of individual jets are directed at an angle to the direction of movement of a second group of individual beams perpendicular to the direction of movement and a third group of individual jets at an angle in the direction of movement of the workpiece. Basically, the relative movement of the type described above by a movement of the workpiece relative to the cleaning chamber or against nozzles for generating the jets done or by a movement of the cleaning chamber or the nozzle relative to the workpiece.

It is also possible to clean blind holes or threaded holes particularly intensely by one or more nozzles inserted into this, moved in them, may be briefly stopped and moved out again. ·······································································································. «« «· - 4 -

A particular simplification of the method according to the invention is achieved in that the cleaning medium flows freely out of the cleaning chamber. In this way, can be dispensed with a suction or the like.

Furthermore, the present invention relates to a device for cleaning workpieces of adhering working media and / or work residues with a cleaning chamber and means for introducing a gaseous cleaning medium. To fulfill the above-described objects, it is provided according to the invention that the means for introducing a gaseous cleaning medium are designed as nozzles, which are arranged in at least three groups, and that the nozzles of the at least three groups are directed at different angles on the workpiece. As described above, not only noise emissions and contamination of the working air can be avoided with the device according to the invention, but it can even with relatively little effort material entrainment be avoided even if there are firmly adhering residues.

A particularly cost-effective operation of the device is achieved when the nozzles are designed as compressed air nozzles.

The structural design of the device according to the invention is particularly advantageous when the nozzles of a group are arranged on at least one common manifold. This design allows a simple conversion of the device, if this is to be converted to a new type of workpieces to be cleaned. A further simplification of the conversion is achieved in that the nozzles are made adjustable.

A first preferred embodiment variant of the device according to the invention provides a device for producing a relative movement between the workpiece and the nozzles. This relative movement can be rotational or translatory, as described above. Various variants are possible for producing the relative movement. So on the one hand, the workpiece can be moved within the cleaning chamber. On the other hand, the workpiece may be fixedly mounted in the cleaning chamber, but the nozzles are moved over the workpiece. Finally, it is possible for the cleaning chamber to be designed so that it can be lowered onto a conveyor for conveying workpieces or in the form of a tunnel through which the workpieces pass.

Preferably, grid structures are provided in the interior of the cleaning chamber in order to collect and dissipate fluidized spray and liquid parts. Basically, there is a risk that the spray, which is ························································ Is formed from the blown off residues, deposits on the workpiece and contaminates it again. Furthermore, it is possible that individual liquid droplets, which are blown away from the workpiece, bounce off the walls of the cleaning chamber and are thrown back onto the workpiece again. The occurrence of these effects can undesirably increase the required treatment time of the workpiece and reduce the cleaning performance. To avoid this, the above-described grids are provided to which the spray adheres and forms larger drops, so that the spray no longer returns to the workpiece. Furthermore, a rebound of wegspritzenden residue is reliably prevented in this way.

In the following, the invention will be explained in more detail with reference to the embodiments illustrated in FIGS.

1 shows a section through a first embodiment variant of a device according to the invention, FIG. 2 shows a section along line II - II in FIG. 1, FIG. 3 shows a detail of a device according to the invention in an axono-metric representation on an enlarged scale, FIG 4 shows a further detail of a device according to the invention in section, FIGS. 5 and 6 show details of nozzles, FIG. 7 shows a further embodiment of the invention in section, and FIG. 8 shows a section along line VIII-VIII in FIG.

The device of Figs. 1 and 2 consists of a cleaning chamber 1 with a lid la, in which a workpiece 2 is mounted. Laterally of the workpiece 2, three blower strips 3a, 3b, 3c designed as distributor tubes are provided, which are provided with a multiplicity of nozzles 4. The workpiece 2 is held by seats 5 rotatably disposed in the cleaning chamber 1 and driven by a motor 6 to rotate the workpiece 2 about a horizontal axis 8 in the direction of the arrow 7. In each case a first group 4a of nozzles 4, which are directed against the direction of rotation 7 on the workpiece 3, is provided on the first distributor pipes 3a. A second group 4b of nozzles 4 on second distributor pipes 3b is aligned in the direction of the axis 8. A third group 4 c of nozzles 4 on distribution pipes 3 c is directed at an angle in the direction of rotation 7 on the workpiece 2. In this way, recesses, holes, undercut area or the like of the workpiece 2 are reliably cleaned.

In the lower region of the cleaning chamber 1, an outflow opening 9 is provided, through which the cleaning medium can flow together with the blown-off working medium. ··························································································

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Compressed air generator 11 supply via distribution lines 12, the individual manifolds 3a, 3b, 3c. Of course, existing compressed air networks can be used accordingly.

In Fig. 3, the construction of a blow bar 3 is shown on an enlarged scale. The blowing strip 3 consists of a box-shaped main body 10, in which a plurality of nozzles 4 is screwed. The outflow direction of the nozzles 4 is adjustable in order to make an adaptation to the respective workpiece 3 easily and quickly.

Fig. 4 shows the blow bar of Fig. 3 in detail. The main body 10 has an inner space 14, in which the compressed air is supplied. At the top 16 a plurality of Schraubnippeln 15 is provided, the discharge openings 17 having axes 15 a. On the Schraubnippeln 15 nozzles 4 are placed, which consist of a dome-shaped holding portion 18, a pipe section 19 and a nozzle tip 20 in which a plurality of nozzle openings 21 are provided to form a multi-hole nozzle. The emerging rays are indicated at 22. The nozzles 4 are pivotally supported by union nuts 23 and can be adjusted in this way as needed and adapted to the particular workpiece to be cleaned.

To simplify the illustration, only one nozzle 4 is shown in FIG. 4. In practice, the screw nipple 15 are partially closed by closures, not shown, if no nozzle is required at the relevant point. The axis 24a of the nozzle 4 of the first group 4a is inclined at an angle 25a of 25 ° to the axis 15a, wherein the inclination against the direction of movement of the workpiece, which is indicated by the arrow 27.

The axis 24b of the unillustrated nozzles 4 of the second group coincides with the axis 15a, and the axis 24c of the third group 4c is inclined at an angle 25c of 25 ° to the axis 15a, the inclination being in the direction of movement of the workpiece.

In addition to the above-described inclination in or against the direction of movement, there may be a further inclination perpendicular thereto, ie about an axis 26a lying in the plane of the drawing, which is perpendicular to the axis 24a.

Fig. 5 shows a nozzle tip 20 of a nozzle 4 in detail. In addition to a central nozzle opening 21a, further slot-shaped nozzle openings 21b are arranged radially between guide ribs 28. ············· »· * ··· - 7 -

Fig. 6 shows a nozzle 4 from the front, in which a plurality of nozzle openings 21c are arranged side by side.

In Fig. 7 and 8, a further embodiment of a device according to the invention is shown. The cleaning chamber 1 is designed in the form of a hood, which can be lowered via a lifting device 12 onto a conveyor belt 13, on which the workpiece 2 is transported. Similar to the above-described apparatus, there are provided in the cleaning chamber 1 manifolds 3a, 3b, 3c equipped with nozzles 4 oriented counter to, perpendicular and in the conveying direction. In this embodiment, the cleaning of the workpiece 2 takes place during the transport of the workpiece 2 on the conveyor belt 13, which thus causes the desired relative movement between the workpiece 2 and the nozzle 4.

The device according to the invention can be used in virtually all existing processing lines. It is simple in construction and uncomplicated and requires a proper adjustment virtually no control or review. The device requires little energy because the blow-off operations can be adjusted to last only as long as required for rapid and effective cleaning. The inventive system prevents the emission of harmful aerosols and the noise can be avoided on a large scale. The workpieces are absolutely clean in no time and free from residues.

Claims (26)

···························· ··· be introduced into the cleaning chamber (1) and in the cleaning chamber (1) are acted upon with a gaseous cleaning medium to blow off the adhering working media and / or work residues, characterized in that the ablation by a plurality of individual jets (22) takes place in at least three groups on the workpiece (2) are directed, each group has a different angle of incidence on the workpiece (2). 2. The method according to claim 1, characterized in that compressed air is used as the cleaning medium. 3. The method according to any one of claims 1 or 2, characterized in that the pressure of the cleaning medium is between 0.5 bar and 10 bar, preferably between 0.9 bar and 8 bar. 4. The method according to any one of claims 1 to 3, characterized in that the workpiece (2) is moved relative to the cleaning chamber (1). 5. The method according to claim 4, characterized in that the workpiece (2) within the cleaning chamber (1) is rotated. 6. The method according to claim 5, characterized in that a first group of individual beams at an angle against the direction of rotation (7) a second group of individual beams in one direction in the direction of the axis of rotation and a third group of individual beams at an angle in the direction of rotation on the Workpiece (2) are directed. 7. The method according to claim 4, characterized in that the workpiece (2) is moved in translation relative to the cleaning chamber (1). 8. The method according to claim 7, characterized in that a first group of individual beams are directed at an angle to the direction of movement a second group of individual beams perpendicular to the direction of movement and a third group of individual beams at an angle in the direction of movement on the workpiece (2). 9. The method according to any one of claims 1 to 8, characterized in that the cleaning medium flows freely from the cleaning chamber (1). ···································································· ············ · · · · · · · · · · · · · · · · · · · · · 10. An apparatus for cleaning workpieces (2) of adhering working media and / or work residues with a cleaning chamber (1) and means for introducing a gaseous cleaning medium, characterized in that the means for introducing a gaseous cleaning medium as nozzles (4) are formed which are arranged in at least three groups (4a, 4b, 4c), and that the nozzles (4) of the at least three groups (4a, 4b, 4c) are directed at different angles on the workpiece (2). 11. The device according to claim 10, characterized in that the nozzles (4) are designed as compressed air nozzles. 12. Device according to one of claims 10 or 11, characterized in that the nozzles (4) with a pressure generating device for producing a pressure between 0.5 bar and 10 bar, preferably between 0.9 bar and 8 bar are in communication. 13. Device according to one of claims 10 to 12, characterized in that the nozzles (4) are designed as multi-hole nozzles. 14. Device according to one of claims 10 to 13, characterized in that the nozzles (4) are made adjustable. 15. Device according to one of claims 10 to 14, characterized in that the nozzles (4) of a group are arranged on at least one common distribution pipe. 16. Device according to one of claims 10 to 14, characterized in that the nozzles (4) of a first group (4a) at an angle (25a) between 10 ° and 35 ° to a normal (15a) on the manifold (3) in that the nozzles (4) of a second group (4b) are parallel to a normal (15a) on the distributor pipe (3) and that the nozzles (4) of a third group (4c) are at an angle (25c) between 10 ° and 35 ° to a normal (15a) on the manifold (3) opposite to the nozzles (4) of a first group (4a) are inclined. 17. Device according to one of claims 10 to 16, characterized in that a device for producing a relative movement between the workpiece (2) and the nozzles (4) is provided. t ···· ······ φ »· t · ♦ ·« «· ··· ····· * ···· · · * ♦ # ··· · ·« · ♦ ··· · · · Φ ·· ·· φφ ··· ··· φφφφ - 10 - 18. The apparatus according to claim 17, characterized in that the device for producing a relative movement as a clamping device for the movable mounting of the workpiece (2) is formed. 19. The apparatus according to claim 18, characterized in that the clamping device is designed for pivotable mounting of the workpiece (2). 20. Device according to claim 19, characterized in that group (4a) of nozzles at an angle to the direction of rotation (7) has a second group (4b) of nozzles in one direction in the direction of the axis of rotation (8) and a third group (4c) of nozzles are directed at an angle in the direction of rotation on the workpiece (2). 21. The apparatus according to claim 18, characterized in that the device is designed as a clamping device for the translational mounting of the workpiece (2). 22. The apparatus according to claim 21, characterized in that a first group (4a) of nozzles at an angle to the direction of movement on a second group (4b) of nozzles perpendicular to the direction of movement and a third group (4c) of nozzles at an angle in the direction of movement the workpiece (2) are directed. 23. Device according to one of claims 15 to 22, characterized in that a movable mounting of the nozzles (4) is provided. 24. Device according to one of claims 15 to 23, characterized in that the cleaning chamber (1) on a conveyor (13) for conveying workpieces (2) is designed to be lowered. 25. Device according to one of claims 10 to 24, characterized in that the cleaning chamber (1) has an outflow opening for the cleaning medium. 26. Device according to one of claims 10 to 25, characterized in that in the interior of the cleaning chamber (1) lattice structures are provided to catch and dissipate whirled up spray and liquid parts. 2005 07 14 Ba / Sc Patentanwa! ) L-Ing. Michael Babeiuk 150 Vienna, Merlahllfer Gürtel 39/1 i: (+431) 692 93 33-0 Fax: (+431) 892 89 333 e-msrt: patevit © t> atieluk.at