DE102004057658A1 - Work piece e.g. a metal plate, water-jet machining method, involves adding gas to water, and arising increased abrasion during impinging water jet on work piece through gas vesicle - Google Patents

Abstract

The method involves adding a gas to water, and arising an increased abrasion during impinging of a water jet (3) on a work piece (4) through a gas vesicle, where the gas contains carbon dioxide (CO2). The gas is added to the water downstream by a high-pressure pump (5) for producing pressure of the water jet according to the principle of a water-jet pump. The water jet does not contain abrasion additive. An independent claim is also included for a device for executing a method for water-jet machining a work piece.

Description

The The present invention relates to a method and an apparatus for water jet machining of workpieces.

Especially under the introduced Concept of "water jet cutting" are methods and devices for machining workpieces with water jets under high pressure generally known. Special They have significance when cutting flat workpieces, for example of plastic or metal sheets. A high pressure generated Water jet hits with a correspondingly high speed on one surface of the workpiece and has a abrasive effect there, so it carries off material. By relative Finely focused water jets can approximate lines through metal sheets be cut and by appropriate guidance of the water jet with little effort and complicated shapes are cut out. The process is considered relatively inexpensive and universal in terms of the materials to be cut, but with regard to on the working speed and the possible material thickness limits.

It is also known in water jet cutting the water jet Add solid particles to enhance the abrasive effect. Next to the resulting additional equipment expenditure and material consumption, this approach also in the disposal of the accumulating residues have disadvantages, so too environmental damage and disposal costs. Despite that in many cases improved performance especially the fundamental economic Advantage of the technique of water jet cutting to a part again canceled.

Of the The present invention is based on the technical problem Specify a method and a device with which a water jet machining in economic terms and effective way becomes.

The The invention is directed to a method for water jet machining a workpiece, directed at the water as a jet of water under pressure on the workpiece and the workpiece characterized abrasively processed, characterized in that the Water is added to a gas and when the water jet hits through to the workpiece gas bubbles a reinforced one Abrasion occurs, as well as to a device for carrying out the Method with a water jet nozzle for generating the water jet, a high-pressure pump for generating the pressure for the water jet and a water pipe for supplying the high-pressure pump with water, characterized by a gas supply means for supplying the gas to the water upstream of the exit of the water jet from the device.

preferred Embodiments of the invention are specified in the dependent claims and are explained below. The individual features of the invention relate both to the process category as well as the device category, without explicitly distinguishing between them in detail.

The The basic idea of the invention is to be supplemented by a gas the water used to increase the abrasive effect to create. When hitting the water on the workpiece surface under high velocity gas bubbles due to violent pressure changes an amazingly strong abrasive action, in principle of the cavitation about to turbine blades is known.

Around such gas bubbles to produce, the water used can carry dissolved gas, the upon the exit of the water jet from the nozzle and / or upon impact the water jet on the workpiece surface leads to gas bubbles, where you especially in the latter case of a cavitation effect in the narrower Meaning can speak. But even if the gas bubbles at least some are already present in the water jet before this impinges on the workpiece surface, corresponding effects are to be expected. In addition, the gas additive also done in such a way that the gas is not or not completely in dissolved in the water is so entrained in gaseous form with the water jet. Especially can Situations occur in which all three possibilities exist simultaneously, So a part of the gas unresolved is entrained, a portion of the gas as it exits the nozzle from the solution already entering the gas phase and another part of the gas upon impact of the water jet on the workpiece surface in the Gas form passes.

In any case, the addition of a gas provides an inexpensive, procedurally simple and with regard to the residues particularly unproblematic form of improving the abrasion effect of a water jet. This is especially true when using a low-cost and environmentally benign gas that does not need to be recovered or collected after use. A preferred example in the context of this invention is CO ₂ , which is easy to dissolve in water and is available at low cost. CO ₂ is already part of the natural At atmosphere and therefore harmless to the environment. Of course, it can also be used in the context of the invention in mixtures with other gases to produce certain effects.

Preferably the gas is going downstream from a high pressure pump added, with the necessary for the water jet Pressure is generated. It is preferably a place with relative low pressure used. For a gas supply upstream of the high-pressure pump would exist possibly the risk of cavitation damage to the pump and would be because the lower pressure smaller amounts of gas solvable. Would you add more gas, so leave a portion of the gas in the gas phase, u would. U. impaired the effect of the pump.

Prefers is a gas supply according to the principle of the water jet pump, so at one point with at an opening substantially parallel to the opening surface of passing water. It can on the one hand without significant overpressure of the gas an effective feed guaranteed in the water become. On the other hand, the gas in this form can also be in a high-pressure area supplied to the system be, because the flow a pressure compensation through the opening prevents. Preferably is the gas supplying Cable in the area of the opening inclined in such a way arranged that the gas flow with the water flow forms an acute angle.

Although the advantage of the invention may be just to avoid the addition of "solid abrasive" is not excluded, both possibilities to combine, so in addition to the gas additive additionally solid abrasives to use. Preferably, however, in the context of this invention renounced to the already described advantages over the as far as possible known methods with solid abrasives exploit.

Next classical water jet cutting, in particular of metal sheets, made of a light metal alloy, come within the scope of the invention also cleaning process into consideration. Therefore, here was the term The water jet processing used, not just on separation processes but should include edits of various shapes should. Among other things can superficial Layers, such as paint residues, with a method according to the invention be removed particularly effectively. In addition to the cutting and the Cleaning are natural also other workpiece machining possible with water jet, such as the profiling or roughening of surfaces and the like.

in the The following is an embodiment of the invention described in more detail, wherein the individual features of the embodiment in other Combinations of the invention may be essential.

1 schematically shows an apparatus for water jet cutting according to this invention.

2 shows for comparison a conventional device for water jet cutting with fixed abrasive additive.

3 shows in comparison cutting experiments with the device according to the invention and a conventional water jet cutting device based on photographs of the tracks on workpieces.

In 1 is highly schematic and partially shown in section a device according to the invention for water jet cutting. This has a pressurized water pipe 1 with a water outlet nozzle 2 through, through which a focused jet of water 3 escapes at high speed and onto a workpiece 4 meets.

The pressure water line 1 is via a high pressure pump 5 supplied with water via a water supply pipe 6 connected to a water network. With a gas supply device 7 CO _{2 is added} in an amount just below the solubility limit at the water pressure used for the water jet cutter. The water pressure can be, for example, in the range of 1000 bar. This is done in not specifically marked way here by the principle of a water jet pump through a running at an acute angle to the water flow gas line 10 , which meets an opening parallel to the water flow opening. The gas flow should therefore be largely parallel to the flow of water and be employed only at a relatively low angle.

The CO2 dissolves well in the water, so that in this embodiment, a clean jet of liquid is the nozzle 2 reached.

Due to the pressure drop when the jet of water comes out of the nozzle 2 Here, some of the CO2 can already enter the gas phase. This also depends on the speed of the water. For a substantial part of the rest, this only applies when the water jet hits 3 on the surface of the workpiece 4 so it's there by the already in the water jet 3 contained and formed by cavitation gas bubbles a significantly increased abrasive effect comes. A certain proportion of gas in the jet of water after it leaves the nozzle 2 does not necessarily disturb the invention.

Compared to 1 shows 2 a conventional device of comparable design. Here is missing the gas supply 7 , The high pressure pump 5 and the water supply line 6 are omitted. In contrast to 1 joins the nozzle 2 in the high pressure pipe 1 a mixing chamber 8th with a lateral abrasive supply line 9 at. Through this supply line 9 a particulate abrasive such as a carbide is added, which is mixed in the mixing chamber with the water jet. After impact of the water jet on the workpiece, not shown here 4 fall next to the removal of the workpiece 4 significant amounts of the abrasive. In many cases, it is necessary to dispose of these mixed residues as hazardous waste relatively expensive.

3 shows the results of experiments. The right column shows a kerf from top to bottom 11 , ie, a cross-sectional view, a plan view of the top and a bottom view of the bottom of a device according to the invention with 1 machined sheet metal. The sheet was made of AlMgSi with 3 mm thickness. The pressure in the high-pressure pipe 1 in this case was 360 mPa. The workpiece was moved at a feed rate of 30 mm / min.

in the In comparison, the left column shows corresponding pictures of top to bottom, but without CO2 additive. It can be seen that in the conventional Procedure top left only one not even half of the Alloy sheet penetrating kerf was achieved, whereas right above a complete severed sheet metal can be seen. Accordingly, the top shows middle Line, left only a slightly widened erosion trail, while the right side with the dark line passing through the water jet on the bottom shows. When trying with conventional waterjet cutting the water jet has penetrated only punctually through the sheet. This is also reflected in the bottom line, the bottom left one on a relatively short track piece limited passage through the sheet shows, whereas lower right a comparatively clean run Dividing line can be seen.

In order to the invention provides an increase in performance of the conventional Water jet cutting process without simultaneous disposal problems and at comparatively low additional costs.

Claims (12)

Method for water jet machining a workpiece ( 4 ), in which water as a water jet ( 3 ) under pressure on the workpiece ( 4 ) and the workpiece ( 4 ) is thereby abraded, characterized in that a gas is added to the water and upon impact of the water jet ( 3 ) on the workpiece ( 4 ) by gas bubbles increased abrasion occurs. The method of claim 1, wherein the gas is completely in dissolved in the water and the gas bubbles occur by cavitation. Process according to Claim 1, in which the gas is at least partially undissolved and, as gas bubbles, the water jet ( 3 ) is added. Method according to one of the preceding claims, wherein the gas is the water downstream of a high-pressure pump ( 5 ) for generating the pressure of the water jet ( 3 ) is added. Method according to one of the preceding claims, in the gas to the water according to the principle of a water jet pump is added. Method according to one of the preceding claims, in which the gas contains CO ₂ , preferably CO ₂ . Method according to one of the preceding claims, in which the water jet ( 3 ) contains no solid abrasion additives. Method according to one of the preceding claims for waterjet cutting of flat workpieces ( 4 ), in particular of metal sheets. Method according to one of the preceding claims for cleaning, in particular paint stripping, of workpieces ( 4 ). Apparatus for carrying out a method according to one of the preceding claims with a water jet nozzle ( 2 ) for generating the water jet ( 3 ), a high pressure pump ( 5 ) for generating the pressure for the water jet ( 3 ) and a water line (b) for supplying the high-pressure pump ( 5 ) with water, characterized by a gas supply means for supplying the gas to the water upstream of the outlet of the water jet ( 3 ) from the device. Device according to Claim 10, in which the gas supply device ( 7 ) between the nozzle and the high pressure pump ( 5 ) is arranged. Apparatus according to claim 10 or 11, wherein the gas supply having a water jet pump.