DE19517880C2 - Process for preparing used washing or rinsing liquid - Google Patents

Description

The invention relates to a method for preparation used cleaning and / or rinsing liquid in an egg ner washing system for industrial parts with oil or greasy processing residues are contaminated and in a treatment chamber a washing process and subsequent ei in the same chamber or in a separate chamber be subjected to a rinsing process, the washing process in one from a cleaning fluid reservoir fed cleaning cycle runs, one with a Surfactant or the like. Aqueous cleaning liquid added contains, and the rinsing process in one from a rinsing liquid liquid storage tank fed rinsing cycle expires, which is an aqueous rinsing liquid, preferably pure what contains water, the cleaning liquid and / or the Flushing liquid to be prepared so that the Parts for washing or rinsing.

For preparing used washing and / or rinsing liquid are thermal, mechanical and chemical processes knows.

DE 42 08 665 A1 describes, for example, how by distilling used washing liquid the thermi The processing takes place by the steam from a ver  steamer for heating the cleaning and rinsing liquid is used with the help of capacitors, the pure Condensate is returned to the rinsing liquid. there the rinsing liquid is derived from a rinsing liquid reservoir on the surface by a Overflow so that the dragged into the rinsing liquid Oil and grease contaminants floating above and above conditions are removed.

In addition to thermal processing, the overflow also results in mechanical processing. Another type of mechanical processing, which is also described in the aforementioned DE 42 08 665 A1, consists in filtering the washing or rinsing liquid. In Fig. 1 of the document ge shows that the used cleaning liquid is pressed out of the treatment chamber through a filter, where oil and fat-containing components are separated and the prepared cleaning liquid is pumped into the cleaning liquid storage container. With this stage of treatment by filtering, however, a relatively stable emulsion cannot be broken up.

To emulsions from oils, fats and other kohlwas substances containing hydrogen in an aqueous wash liquor To be able to break up, ultrafiltration processes are used set so that washing-active substances are also recovered can be. The ultrafiltration takes place i. d. R. about Hy draffin activated carbon filter, with residual oil contents of about 1 mg / l can be reached. However, Ultrafiltrationver drive very complex and expensive because of constant maintenance and filter regeneration are required. Of this The method is therefore used relatively little makes.  

In DE-Z: Maschinenmarkt, Würzburg 94 ( 1988 ) 23, pp. 52- 56 chemical processes for the preparation of cleaning fluids with salt splitting or acid splitting are described.

Oil or fat emulsified in water can be added by adding Aluminum sulfate or iron chloride with simultaneous addition use soda or caustic soda. This Demulsifiers are mainly used for water treatment used in steam generators.

The object of the invention is the preparation further improve used cleaning fluid and a simple and economical process for demixing creation of a hydrocarbon-containing emulsion of an aq to specify cleaning liquid that is used during loading Drive of the car wash can be used. Furthermore, a Device are specified with which the method out can be led.

The object of the invention is in the generic Ver drive through the listed in the characterizing part of claim 1 characteristics solved. The dependent claims 2 to 5 relate on advantageous developments of the method. The Claims 6 and 7 relate to a scoop device to remove the oil or fat layer from the liquid surface.

With the method of claim 1, the car wash meh rere storage container for cleaning liquid and several Containers for rinsing liquid included. From the previous storage containers can be a storage container for washing liquid speed and a reservoir for rinsing liquid active in the Washing and rinsing processes must be integrated. At least one another reservoir for washing liquid and a white  There are additional storage containers for rinsing liquid but initially not in the active washing and rinsing process integrated, but switched as a calming pool.

While the treatment came from one of the storage containers The washing and / or rinsing process is fed in the other storage tanks regeneration by De mulsify and / or skim the oil and fat components from the liquid surface. Is a given ver Degree of contamination in active storage containers exceeded ten, the washing or rinsing circuit of the cleaning system be switched to the inactive storage containers ter, in which in the meantime at the same time or time delay sets demulsified or skimmed off. From the time on these reservoirs are active reservoirs and the previously active storage containers are not active and serve as a calming pool in which demulsified or abge is scooped.

This method is advantageous in multi-shift operation ner car wash applicable and leads there to an essential Chen life extension of the liquids.

The preparation of the cleaning and / or rinsing liquid in the cleaning liquid reservoir or in the rinsing liquid liquid storage container saves an additional appara tive structure of the car wash, for example by expending ultrafilter systems. The use of a chemical De mulgators, which from time to time depending on the load of the Liquid is added, simplified to surprising Way of processing. By using a reacti rapid acting demulsifier on iron (III) chloride or aluminum sulfate base can flocculate the oil or Fat particles occur suddenly in a matter of seconds, see above that immediately afterwards, or more precisely, Reini  cleaning or rinsing liquid from the cleaning liquid storage container or the rinsing liquid storage container can be dispensed for washing or rinsing while the flocculated oil or fat particles from the surface of the Liquid continuously mechanically removed, for example can be skimmed off and collected. The total concentrated oil or fat mass mixed with the rest liquid can be disposed of separately or another preparation to be fed to either the remaining Rei recovery or rinsing liquid or the oils and return fats to their original purpose.

Because the demulsifier has a sudden reaction affects the quality of the cleaning or rinsing liquid be kept largely constant, while in known Apply the liquid more and more after each use is encumbered, which eventually leads to the exchange of all Amount of liquid must lead. It follows that through that The method according to the invention has an almost unlimited service life the liquid is reached, being yet another pre It should be emphasized that the valuable washing active Surfactants are not lost, but reused several times be applied.

It is also advantageous to note that the volume of the Storage container and thus the dimensions of the car wash can be reduced because of the constant rivers quality to an oversized capacity the reservoir can be dispensed with, which comes from conventional systems is therefore necessary to the after each use of the liquid increasing dirt degree of increase due to a large amount of liquid compensate.  

As already indicated, there is another advantage of Invention in that the consumption of detergent sub punch how surfactants can be lowered.

For the preparation of the cleaning or rinsing liquid the storage container is chosen because the chemical reaction there in relatively calmer Liquid can drain and the flocculated ingredient le rise to the surface, where they can easily can be removed, as described in more detail below is written. Furthermore, the cleaned and possibly already rinsed parts cannot be removed by removing them flocked surface layer to be pulled through like it would be necessary if the procedure in the treatment tion chamber, for example in the wash chamber or the Rinse chamber would expire. If the procedure in a loading chamber is carried out, then removal the parts only take place in the time when not washed or is rinsed, and only if the out flocculated surface layer is completely removed. How it can be seen that this procedure is fundamentally possible Lich, however, has certain disadvantages as set forth.

In the three-shift operation of the system, there is one major extended service life of the cleaning liquid or Flushing liquid if the with a two-line system a container for feeding the cleaning or rinsing circuit are switched on and the other containers than Beruhi are switched in which demulsification in calmed liquid can be performed.

According to claim 2, the refreshed cleaning liquid or cleaning liquid from the cleaning liquid storage container or rinsing liquid storage container in the appropriate treatment chamber such as wash basin or sink  basin directed, and the used cleaning or rinsing liquid back from the corresponding treatment chamber in the cleaning liquid reservoir or rinsing liquid liquid storage container directed. The demulsifier will then added when the cleaning or rinsing liquid has exceeded a certain degree of pollution.

The amount of demulsifier to be added depends on the degree of contamination of the liquid. Advantageously contains the system a reservoir for the demulsifier, and the addition is controlled by a pump and a valve.

To improve the effect of the demulsifier, it is available partly to heat the cleaning and / or rinsing liquid men. For this, known methods can be used for for example on the thermal treatment of the cleaning or rinsing liquid that i. d. R. at Such systems are also used to pure De to receive stillat that for the regeneration of the rinsing liquid speed is used.

As is known from DE 42 08 665 A1, rinsing can used storage liquid in passed to an evaporator and the vapor from the evaporator for heating the cleaning and / or rinsing liquid be used. This can be done in the cleaning liquid storage container and in the rinsing liquid storage container Capacitors with which the steam can be installed is and the pure distillate to refresh the Rinsing liquid is added again.

For removing the flocculated oil or fat particles a known Ab is particularly suitable scoop. With such a scoop can the upper layer of liquid is removed. The principle  This scooping device is based on the fact that the as driving body trained scoop is tiltably mounted and initially empty so far immersed in the liquid is that its lift becomes so big that it tilts and Liquid runs into it. However, the buoyancy is increasing again and the scoop straightens up again, so that no liquid can run in. With help a suction pipe and a suction pump the liquid pumped out of the scoop, the buoyancy increases and it tilts again, fills up, straightens u. s. w ..

This oscillates through continuous operation of the pump Scoop and sip sip by sip on the Floating components. Because of the constant Scooped out the flocculated components Scoop out so that the scoop does not have the Surface of the liquid to be moved back and forth needs.

Of course, the removal of demulsified stocks share in other ways too, for example via skimmers or band filter.

In the following the invention is based on the drawings ago explained.

Show it:

Fig. 1 is a schematic representation of a purification plant Rei,

Fig. 2, the scoop device in the lung Füllstel,

3 shows the scoop device position. In the purge,

Fig. 4 shows a section in the region of the tilting bearing of the scoop.

In the illustrated in Fig. 1 cleaning system is a so-called single-chamber system with a treatmen lung chamber 5, in which the items successively nigt gerei, rinsed and can also be dried if necessary. Of course, the invention can also be used for systems which have a plurality of treatment chambers 5 , for example a separate cleaning chamber, a rinsing chamber or a drying chamber. In addition to the treatment chamber 5 , the system has as main components a cleaning fluid reservoir 6 , a rinsing fluid reservoir 7 and an evaporator 8 .

The treatment chamber 5 is equipped with unspecified spray and spray nozzles, between which a rotatably mounted perforated plate basket is arranged, in which the parts to be treated are located. The parts can be various small parts such as stamping and pressing parts, screws, nuts, bolts, pins, wedges, springs, etc., which are to be washed off from oil or fat or other processing residues such as cutting oil emulsions.

The cleaning liquid reservoir 6 contains an aqueous cleaning liquid with a detergent substance, for example a surfactant. The rinsing liquid reservoir 7 contains an aqueous rinsing liquid, in the simplest case pure water, with which the parts are rinsed off after washing.

The washing process runs in a cleaning circuit and is closed with cleaning liquid from the cleaning liquid keitsvorrats containers 6 via line 9 , the treatment chamber 5 and the return line 10 , the line 9 is a pump 11 and a shut-off valve 12 ; with the pump 11 , the cleaning fluid is pumped out of the cleaning fluid reservoir 6 and injected at high pressure through the unspecified spray nozzles into the treatment chamber 5 , as a result of which the parts in the basket are cleaned, ie washed off from oils, fats and other contaminants. The used cleaning liquid is pumped by the pump 13 in the return line 10 back into the cleaning liquid storage container 6 . It should be noted that a filter (not shown) can be installed in the return line 10 , with which contaminants can already be separated. With the solenoid valves 12 , 14 , the outward and return lines 9 , 10 are closed after the washing process has ended and the rinsing process is initiated.

The rinsing liquid reservoir 7 is connected to the treatment chamber 5 via the line 15 . With the pump 16 , when the valve 17 is open, rinsing liquid is sprayed through the spray nozzles, not shown, into the treatment chamber 5 , as a result of which the parts are rinsed off of adhering residues of the cleaning liquid. Via line 10 , 18 , the used rinsing liquid is conveyed back into the rinsing liquid reservoir 7 with the pump 13 when the valve 14 is closed and the valve 19 is open.

In addition to the cleaning circuit and the rinsing circuit, a distillation circuit is provided with which the rinsing liquid required is drained off at the overflow 20 and is conveyed through the line 21 with the pump 22 into the evaporator 8 . From the evaporator 8 , the steam passes through line 23 into the condenser 24 , where part of the steam condenses. The remaining steam is passed through line 25 into a second condenser 26 where the steam condenses completely. Through line 27 , pure distillate is caught in the distillate reservoir 28 . If necessary, pump 30 can be used to pump pure distillate through line 29 into the rinsing liquid reservoir 7 in order to refresh the rinsing liquid.

As can be seen from FIG. 1, the condensers 24 , 26 are installed in the cleaning liquid storage container 6 and the rinsing liquid storage container 7 , respectively. The heat generated during the condensation is used to heat the cleaning and rinsing liquid.

Due to the largely wastewater-free operation of the plant and the constant circulation of the cleaning and rinsing liquid there is an increasing load on the fluids once is that the cleaning liquid after every washing process increasingly loaded with oil or fat is furthermore the rinsing liquid by introducing Cleaning fluid dirty.

It is intended to chemically process the cleaning liquid and the rinsing liquid. For this purpose, in the cleaning liquid storage container 6 and in the rinsing liquid storage container 7, a rapidly reacting demulsifier, for example iron (III) chloride, is added when a certain degree of contamination of the liquid is exceeded. The demulsifier in the liquid separates the washing emulsion by splitting off the oil or fat particles bound to the surfactants and flocculating them.

The addition of the demulsifier takes place according to FIG. 1 of the drawing from the demulsifier storage container 31 . Through a pipe 32 , the addition of the demulsifier is metered with the pump 33 . Shortly after adding the demulsifier, the emulsified components flocculate and float on top of the liquid; one therefore speaks of creaming. The time intervals in which this process is repeated need not be the same, rather the time intervals depend on the degree of contamination of the parts. The period can be hourly or daily.

In the cleaning liquid reservoir 6 and the rinsing liquid reservoir 7 , a scoop device is installed, with which the creamed oil or fat layer is continuously skimmed off the liquid surface. This mixture of liquid, non-emulsified oils and fats, as well as the creamed Be constituents, is passed via lines 35 , 36 with pumps 37 into the disposal container 38 , from where this highly contaminated mixture can be supplied for disposal or reprocessing. The scoop 34 consists of the scoop 39 of elongated cylin drical shape with a bottom 40 , a suction pipe 41 and egg ner bracket 42 for attachment to the inner wall of the cleaning supply reservoir 6 or rinsing reservoir 7 . The upper end of the suction pipe 41 is clamped lockably in the holder 42 and connected to the line 35 or 36 with the suction nozzle 43 . The long end of the suction tube extends to the bottom region into the suction vessel 39 into and is connected via a swing bearing 44 to the bailer. 39 The scoop 39 can thus pivot back and forth. The swivel range of the scoop 39 is limited on the one hand by the scoop opening 45 and on the other hand by the suction pipe 41 . As going from FIG. 2 and 3 forth, the rocking bearing 44 of the opening is located approximately in the middle between the bottom 40 and 45 of the suction vessel 39, so that the buoyancy of the lower scoop receptacle member the upper scoop vessel part in the FIG. 2 shown La ge tilts.

The bracket 42 allows an adjustment of the inclination of the suction pipe 41 and a height adjustment. A guide column 46 with a joint 47 is provided for this purpose. Immersing the device 34 in an inclined position is advantageous because it enables the scooping process to be carried out more effectively, ie, more effectively.

The function of the device 34 is as follows: The device 34 with the initially empty scoop 39 is immersed in the liquid on the guide column 46 under a certain inclination of the suction pipe 41 to the liquid surface. It is locked there when the scoop 39 tilts because of its greater buoyancy in the lower part to such an extent that the upper edge area is immersed in the liquid so that the scoop 39 can fill up. From a certain degree of filling of the scoop 39 it will begin to straighten up again and the immersed edge area will lift out of the liquid. Due to the connected and in continuous operation de suction pump 37 , liquid is constantly pumped out of the Schöpfge vessel 39 , the scoop 39 so be constantly in delndender movement.

Claims (7)

1. Process for the preparation of used cleaning and / or rinsing liquid in a washing installation for industrial parts which are contaminated with processing residues containing oil or grease and are subjected to a washing process in a treatment chamber and subsequently a rinsing process, the washing process being carried out in an egg nem cleaning cycle runs, which is fed from a storage container with an aqueous cleaning liquid, and the rinsing process takes place in a rinsing circuit, which is fed from a storage container with an aqueous rinsing liquid, wherein a fast-acting demulsifier in the cleaning or rinsing liquid of the storage container, for example iron III chloride is added, whereby demulsified oil and fat particles are flocculated out, characterized in that several storage containers ( 6 , 7 ) are provided, from which the cleaning or rinsing circuit is optionally fed, and at least egg n Storage container ( 6 , 7 ) serves as a calming basin for cleaning or rinsing liquid by demulsifying and removing the flocculated components. 2. The method according to claim 1, characterized in that refreshed cleaning or rinsing liquid from a reservoir ( 6 , 7 ) in the treatment chamber ( 5 ) is passed, and ge cleaning or rinsing liquid from the treatment chamber ( 5 ) into one other serving as a calming reservoir ( 6 , 7 ) is passed and the demulsifier is then added when the liquid has calmed down and a certain degree of contamination has been exceeded. 3. The method according to claim 1 or 2, characterized in that the addition of the demulsifier from a demulsifier reservoir ( 31 ) is carried out and can be controlled by pumps and valves. 4. The method according to any one of claims 1 to 3, because characterized in that the framed oil or fat layer continuously from the liquid surface is removed.   5. The method according to claim 4, characterized in that the removal of the oil or fat layer from the liquid surface is carried out with a scoop installed in the reservoir ( 34 ). 6. The device according to claim 5, characterized in that the scooping device ( 34 ) has a buoyancy formed as an open Schöpfge barrel ( 39 ) which is oscillating and pivoted in a scooping position and in an emptying position that one to the Bodenbe rich of the scoop reaching suction tube ( 41 ) is provided, which is connected to a suction pump ( 37 ) that the buoyancy of the scoop ( 39 ) is so great that it immerses empty with an edge area in the liquid and fills and that it filled with its rim protruding from the liquid. 7. The device according to claim 6, characterized in that the suction tube ( 41 ) is inclined towards the liquid surface.