DE4320410A1 - Process and apparatus for cleaning surfaces - Google Patents

Abstract

For the environmentally friendly and cost-effective cleaning of surfaces using a high-pressure cleaning jet, it is proposed to cool the cleaning jet (9), upon discharge out of a spraying device (5), until cleaning-fluid crystals are formed, in particular ice crystals. In order to carry out this process, the invention proposes an apparatus which exhibits a cooling device (6) for supplying a coolant and cooling the cleaning jet (9). The ice crystals formed in the cleaning jet (9) result in an increased cleaning effect, while dispensing with chemical cleaning additives, with the result that disposal of the waste water is considerably simplified. <IMAGE>

Description

The invention relates to a method and an apparatus for Cleaning surfaces, using a cleaning jet Cleaning liquid, especially water, with a Spray device under high pressure on the one to be cleaned Surface is sprayed on.

Such cleaning devices are used in particular for Cleaning surfaces on vehicles, buildings or in Garden area application, being those to be removed Soiling sprayed away by the high-pressure cleaning jet become. In particular, the cleaning fluid found here Use water that can be cleaned with a high-pressure cleaner or its high-pressure pump at pressures of around 150 bar or more is brought so that the cleaning jet with high energy the spray device emerges and onto the one to be cleaned Hits the surface and the dirt to be removed replaces.

For more stubborn stains are generally next to the Increasing the working pressure two procedures are common. On the one hand the cleaning water is strongly heated, so that by the increased temperature of the cleaning liquid a better Cleaning effect is achieved. However, this is with one considerable energy expenditure.

The still common method of cleaning surfaces with stubborn dirt is the admixture of Cleaning chemicals. Here, however, the problem arises that the wastewater is then expensive for environmental reasons Way of cleaning chemicals at least largely again must be cleaned or neutralized. Hereby there is also a considerable cost and Workload.

Accordingly, the invention is based on the object Method and device for cleaning surfaces  specify with which a simple and high cleaning effect cost-effective workflow can be achieved.

This problem is solved by a method and a Device for performing the method according to the Claim 1 or 6.

By cooling the cleaning jet with refrigerant, e.g. B. liquid nitrogen, the cleaning jet is so far cooled that in this crystal, at the usual Use of water as a cleaning liquid Form ice crystals that are added to the cleaning jet and with this as a relatively hard particle on the one to be cleaned Surface. This results in a kind "Sandblasting effect", so that even strongly adhesive and stubborn Soiling such as grease can be removed. Unless it is this is organic contamination, it can resulting wastewater into the Sewerage can be initiated or after simple filtering can be used again. By the degree of cooling of the Cleaning portion can easily be the proportion control the crystals in the cleaning jet, so that a allows easy adaptation to the surface to be cleaned becomes.

The cleaning jet is advantageously in one rotating, cone-shaped path led so that the Mixing with the refrigerant and thus cooling is particularly intense. The admixture of the refrigerant can thereby by simply branching off the high pressure hose Control line and a pressure flow valve proportional to Throughput and / or pressure of the cleaning liquid controlled become. Particularly suitable as a refrigerant or coolant liquid nitrogen as it has a very high cooling capacity has and after heating in the admixture in the Cleaning jet does not result in environmental pollution. Similar thing applies to liquid carbon dioxide as a refrigerant because it is after evaporation also no significant  Environmental damage results. Beyond that, however also use other liquid gases or liquid gas mixtures Find. Due to the high cooling capacity, such liquid gases brought to the respective site with vehicles or together with the pressure washer as a gas bottle on one Dolly are transported so that there is a long Mission time results.

Further advantageous embodiments are the subject of Subclaims.

An exemplary embodiment of the invention is described below the drawing explained and described in more detail.

In the drawing, a high-pressure cleaner 1 is shown schematically, which has a high-pressure pump 2 , which is driven by an unspecified drive motor, for. B. an internal combustion engine or an electric motor. The high-pressure pump 2 receives its cleaning liquid, in particular water, through a feed 3 schematically indicated here. The cleaning liquid is then in the high pressure pump 2 on z. B. brought 150 bar or more and fed via a feed line 4 , in particular a high pressure hose, a portable spray device 5 in the manner of a spray lance. At the front end of the spray device 5 , a cooling device 6 is provided, with which the cleaning liquid is cooled until crystals, in particular ice crystals, are formed. The spray device 5 here has a rotary nozzle 7 , in particular according to DE-A 39 02 478, which generates a rotating, cone-shaped cleaning jet 9 . The cooling device 6 is preferably designed as a mixing tube 8 , which has an annular channel 8 a, radially extending feed channels 8 b and a mixing chamber 8 c in the center. The refrigerant supplied from a tank 11 via a feed line 10 , in particular a liquid gas such as liquid nitrogen or carbon dioxide, is mixed into the cleaning jet 9 via the ring channel 8 a, the feed channels 8 b and the mixing chamber 8 c and thereby cools it considerably, so that in this cleaning liquid crystals, in particular ice crystals, are formed which are thrown with great force together with the cleaning jet 9 onto the surface to be cleaned. When the ice crystals hit the dirt, the dirt is loosened and washed away together with the cleaning water. The proportion of crystals in the cleaning liquid of the cleaning jet 9 can be adjusted by the supply of the refrigerant so that the surface, for. B. also sensitive layers of paint, not be damaged. Likewise, the degree of cooling can be set so that the ice crystals or cleaning liquid crystals in the cleaning jet 9 are returned to the liquid state of aggregation shortly after hitting the surface to be cleaned by the amount of heat generated during the impact.

In the refrigerant supply line 10 , in addition to an evaporator or condenser 13 that is customary in cooling systems, a pressure quantity valve 12 is provided, with which the quantity of refrigerant supplied is controlled. For this purpose, a control line 14 is branched off from the high-pressure supply line 4 , so that the high-pressure cleaning fluid acts on a control piston 15 , which is connected to a control valve 16 in the pressure-quantity valve 12 . Thus, when the pressure in the high-pressure supply line 4 increases, the control piston 15 is shifted to the right and the control valve 16 opens further, so that correspondingly more coolant can flow from the tank 11 to the cooling device 6 . In addition, the pressure quantity valve 12 can also be controlled via a control cable 20 shown in dash-dot lines, which taps the cleaning fluid throughput, for example with a potentiometer on the actuating lever 18 of the handle 17 of the spray device 5 .

Instead of or in addition to the admixture of refrigerant via the mixing tube 8 , a type of cooling coil 21 could also be provided on the outer and possibly on the inner circumference of the rotating, conical jacket-shaped cleaning jet, with which the cleaning jet 9 is cooled so strongly during the passage that crystals form train in this. This version with a cooling coil 21 would be particularly suitable for refrigerants that should not leak with the cleaning liquid if, for example, they were not environmentally compatible. This embodiment with a cooling coil 21 along the passage path of the cleaning jet 9 is also suitable for returning and reusing the refrigerant after appropriate recooling.

Although the spray device 5 is shown here as a portable spray lance, the spray device could also be used on stationary systems, e.g. B. vehicle washes find use. Likewise, the spray device 5 could be arranged on robots or similar handling devices, so that cleaning movements programmed with it can be carried out on predetermined surfaces. In this case, the supply lines 4 and 10 and the high-pressure cleaner 1 and the tank 11 could be arranged in a stationary manner. However, as indicated above, the high-pressure cleaner 1 is designed to be transportable in the manner of a carriage, so that it can be moved to the respective place of use. For mobile use, a relatively small nitrogen gas bottle can serve as the refrigerant tank 11 , which can then also be transported to the respective place of use or can be arranged together with the high-pressure cleaner 1 on a common transport trolley.

Claims (10)

1. A method for cleaning surfaces, wherein a cleaning jet of a cleaning liquid, in particular water, is sprayed with a spray device under high pressure onto the surface to be cleaned, characterized in that the cleaning jet ( 9 ) as it emerges from the spray device ( 5 ) until formation is cooled by cleaning liquid crystals. 2. The method according to claim 1, characterized in that the cleaning jet ( 9 ) has a rotating, in particular cone-shaped web. 3. The method according to claim 1 or 2, characterized in that the cooling of the cleaning jet ( 9 ) is carried out with liquid nitrogen as the refrigerant. 4. The method according to claim 1 or 2, characterized in that liquid carbon dioxide is used as the refrigerant. 5. The method according to any one of claims 1 to 4, characterized characterized in that the admixture of the refrigerant proportional to the throughput and / or pressure of the Cleaning liquid is done. 6. Device for performing the method according to one of claims 1 to 5 using a high-pressure cleaner ( 1 ) with a high-pressure pump ( 2 ) and a spray device ( 5 ) connected thereto, characterized in that the spray device ( 5 ) has a cooling device ( 6 ) for supplying a refrigerant at the outlet end of the spray device ( 5 ) and cooling the cleaning jet ( 9 ). 7. The device according to claim 6, characterized in that the cooling device ( 6 ) consists of a mixing tube ( 8 ) which is connected upstream of a rotary nozzle ( 7 ) generating a cone-shaped cleaning jet ( 9 ). 8. Apparatus according to claim 6 or 7, characterized in that a refrigerant supply line ( 10 ) is connected to the cooling device ( 6 ), in which a pressure-quantity valve ( 12 ) is used, the proportioning of the refrigerant proportional to the throughput and / or pressure of the cleaning liquid controls. 9. Device according to one of claims 6 to 8, characterized in that the refrigerant is stored in a tank ( 11 ) which is portable. 10. The device according to claim 9, characterized in that the refrigerant tank ( 11 ) together with the high pressure cleaner ( 1 ) is movable.