DE202006018087U1 - Vehicle wash plant comprises a wash water reprocessing circuit comprising storage tank, gravel/sand bed filter mechanism and collecting tank for the reprocessed wash water, an aerator connected to the filter mechanism, and a pump - Google Patents

Abstract

The vehicle wash plant has a wash water reprocessing circuit (4) comprising a storage tank (6, 8), a gravel/sand bed filter mechanism (18) and a collecting tank (24) arranged in a direction of the water flow, an aerator (34) connected to the filter mechanism for blowing air into the filter mechanism, a pump (14) and an air extraction valve. The filter mechanism exhibits a drain pipe and the aerator is attached to the drain pipe. The aerator produces an excess air pressure, which is smaller than the wash water excess pressure produced by the pump. The vehicle wash plant has a wash water reprocessing circuit (4) comprising a storage tank (6, 8), a gravel/sand bed filter mechanism (18) and a collecting tank (24) arranged in a direction of the water flow, an aerator (34) connected to the filter mechanism for blowing air into the filter mechanism, a pump (14) and an air extraction valve. The filter mechanism exhibits a drain pipe, and the aerator is attached to the drain pipe. The aerator produces an excess air pressure, which is smaller than the wash water excess pressure produced by the pump. The aerator with an air supply pipeline is connected to the filter mechanism and a check valve is arranged in the pipeline. The check valve is closed by a water pump pressure in the drain pipe to prevent the blowing air into the filter mechanism. The pump pumps the wash water to the collecting tank through the filter mechanism. The air extraction valve is connected to the uppermost end of the filter mechanism and allows to escape the air from the filter mechanism, but prevents the withdrawal of the water.

Description

The The present invention relates to vehicle washing systems comprising a washing water recycling circuit in the flow direction a sump, a filter device and a storage container, in the reprocessed wash water kept ready for vehicle washing becomes.

such Vehicle washing systems are, for example, as car washes, gantry washing systems, commercial vehicle washing systems diverse in use. From the wash water reprocessing cycle is the washing water collected after vehicle washing, prepared and again for provided the washing process. In operation, the washing water collected after washing and flows from there into one or more underground collecting basins, from where it over a Filter device is withdrawn into a storage container, from the that for the washing required water is removed. Generally similar the wash water recycling circuit in a car wash, wherein at a car wash typically two sludge traps arranged in front of the stack pool are.

In such a washing water recycling circuit is located the biggest part of water in the reservoir. From there, the water gets through sucked a submersible pump and over The filtering device is filtered to avoid solids in the water in the high-pressure pumps; Solenoid valves; Nozzles, etc. can reach and there damages can cause. In the storage container typically a quantity of water is kept ready for cleaning is sufficient from one to three vehicles. If the water level drops in the storage tank, Typically, water is removed from one of the reservoirs by the suction pump the filter device and pressed into the storage container. Filter and storage tank, the are typically relatively small, are regularly in the engine room of the vehicle wash arranged.

In a gantry washing system are between 6 and 15 m ^{3 of} washing water, with many systems 10 m ^{3 of} washing water are included. The mud basin and the stack basin each have about 5 m ³ capacity. In the reservoir or in the template are about 200l of water and the filter has a volume of about 50 to 150l, with gravel bed or sand bed filters typically about 75% of which are filled with filter material, so that of the 10 m ³ Wash water in the system is significantly less than 50l of water in the filter. Another 200l of water are in the template. Accordingly, there are about 20 to 40 m ^{3 of} washing water in a washing line and about 30 m ^{3 of} water in most systems. The two sludge basins and the stack basins each have about 10 m ³ capacity, which are opposed by a capacity of only about 1 m ³ in the storage tank and about 1 to 2 m ³ in the filter device.

Especially in the summer months or higher Temperatures it comes as a result of the dirt entry and by the Biodegradation of contaminants and wash chemicals in the wash water reprocessing cycle at the vehicle wash to considerable odor nuisance. Cause for it are primarily anaerobic digestion processes of the biomass in the wash water reprocessing cycle, wherein digester gases, e.g. Methane and hydrogen sulfide are formed.

It is known for the aerobic biodegradation of biomass in the wash water oxygen needed becomes. Cold water can absorb more oxygen, which is one of the reasons for that is, that odor nuisance occurs in our latitudes, especially in the summer months. To aerobic in the wash water reprocessing cycle biodegradation with the corresponding lower odor nuisance to disposal to take various measures are already taken. To exist currently mainly three approaches to introduce oxygen into the wash water. On the one hand, the Water by means of a blower over a Variety of plate-shaped membranes in the reservoir and the reservoirs air with a relative high volume flow and low overpressure fed. Another method uses an injector fan after the Venturi principle fed to the water flow of air. In a third approach will over a bypass valve, which is usually on the storage container in Technical room is attached, constantly a small amount of water directly, i. without being used for vehicle washing to be over the wash water drain the Car wash supplied to the reservoir. This is how it should be ensured be that in the original container freshly recycled wash water is available. In this approach can on the one hand, the relatively large one surfaces be used in the reservoir for oxygen exchange. In addition is it possible, one ventilation provided in the reservoir and / or the storage container.

A particular problem in this context is that aeration of the digested sludge in the reservoir is not possible, since this would lead to a stirring up of the sludge and laying of the filter device within a very short time. Instead, you ventilate the wash water in the reservoir, for example, with a distance from the rotten mud, about 80 cm below the surface, so that due to the system in the reservoir partially despite the air supply takes place anaerobic degradation.

In spite of this mentioned method leaves But an anaerobic degradation and thus an odor nuisance not avoid. In practice, that goes so far as vehicle washing systems in the summer months, for example, after a stance phase or a So stink weekend so that you afterwards only one has to run for a certain period of time to be in their vicinity afterwards can and to be able to start with the actual washing operation.

Often, still have to Disinfectants are used to reduce the odor to manage. Typically, this is hydrogen peroxide placed in the reservoir. The use of chemistry kills everyone Microorganisms in the wash water reprocessing cycle from, so also the actually desired, the aerobic degradation performing microorganisms.

Corresponding It is the object of the present invention, in a vehicle washing a anaerobic degradation and thus an odor nuisance, especially after prolonged downtime too avoid.

According to the invention this Task solved with a vehicle wash, the a wash water recycling cycle with in the flow direction a collecting basin, a filter device and a storage container, kept in the recycled wash water for vehicle washing is, wherein the filter means a ventilation device for introducing is connected by air in the filter device.

It has surprisingly that proved by the introduction of air in the supposed small amount of washing water, which is in the filter device located, the odor of the car wash completely or almost completely prevented is. In particular, it has been found that this with a Relatively little effort to be implemented measure much more effective is considered the measures used so far, which is essential larger energetic and require technical effort. It is possible to use the solution according to the invention alone or in conjunction with some or all of the previously known Insert solution inserts. It is possible existing Refurbish or convert car washes accordingly.

The Filter device may be a gravel bed or sand bed filter. Other Filters, such as plate filters, can also be used with the ventilation device according to the invention be provided. Typically, sand bed filters are used with a quartz sand a grain used between 0.8 to 1.2 mm and in particular are closed sand filter used in which the filter according to use is complete and the flow of the wash water from top to bottom through the sand bed. In particular, a drain is provided in the lower region of the filter. The sand bed can be carried from below by a so-called filter star which is typically a sieve or a split filter with a mesh size of 0.5 mm. The washing water will typically pressed under pressure through the filter, wherein the Filter container usually filled to the top with water is.

in the Area of the drain or in the region of a drain line of the filter can the ventilation device be connected. For a sand bed or gravel bed filter like described above, the filter star when blowing the Air accomplish a distribution of the air on the complete filter bed.

The Vehicle washing system may have a pump, the use depending on Washing water requirement Wash water through the filter device and in the template holder pumping, with pumping and pumping pauses alternated. typically, then wash water is pumped through the filter when in the storage tank the Water level has dropped, and this must be refilled. It can be one Control be provided, which is connected to corresponding sensors is to accomplish this control. In addition to the pumping phases and pumping breaks can Rückspülphasen be provided while wash water in the opposite direction and at elevated pressure is pressed through the filter and into the wash water drain the washer and from there back over the Sludge basin led to clean up any sludge that accumulates in the filter. Pump breaks within the meaning of the present application are those periods understood, in which wash water neither in the normal flow direction still in backwash direction is pumped through the filter.

The aerator may be configured so that it air during pumping pauses in the filter device blows. That is cheap, because while the pump breaks the pressure in the filter is reduced. In addition, can blowing in the air during the pumping pauses do not disturb the operation of the filter.

The aerator may be configured to operatively generate an air pressure that is less than that of the pump generated wash water pressure in the filter device, or less than the existing in the filter device wash water pressure. This allows air to be pumped against the water pressure in the filter device.

The aerator can over a check valve, which, for example, in a supply air line connected to the filter device is connected, is connected to the filter device be, wherein the flow Rich tion the check valve is aligned so that at a water pumping pressure in the drain line the check valve includes and no more air are blown into the filter device can.

in the upper area, preferably at the highest point of the filter device it is possible to provide an air release valve which is designed in such a way that it allows air to escape from the filter device, and while preventing leakage of water. Filtering devices of the Prior art already have at its upper end an air drain plug, by the usual Operation e.g. once a day Air is drained from the filter device. It is possible the excess, from air blown down into the filter device through this air outlet drain. It can be cheap be to connect a hose to this air outlet to during pumping phases Leakage of the water, for example, in the wash water outlet of the car wash initiate. In one embodiment For example, with an air release valve, the air release valve a controllable valve responsive to a signal the controller, for example, at the same time or shortly after Start of the pump is generated, the air release valve closes, or this opens, as soon as the pumping phase is over. Alternatively, it is possible to enter Valve with one in a cage held float to use that in the cage normally removed from the valve seat by gravity is held so that air can flow out, but with rising Water level is pressed up against the valve seat, so that no water or virtually no water can escape.

It let yourself a method for the reprocessing of washing water of a vehicle washing system carry out, in the flow direction a sump, a filter device and a storage container, in the recycled water is kept ready for vehicle washing, and comprising the step of blowing air into the filter device.

The Air can through a connected to the filter drain line be blown. The air is preferably from the bottom of the filter device blown in here. It is also possible that Blow air from the side into the filter device. It is cheap, the air as possible when blowing evenly over the Distribute filter bed, so that the air flows through the filter bed as evenly as possible.

Provided Wash water depending on demand the filter device is pumped, it may be preferred to air while Pump breaks to blow. The injection of air into the filter device can continuously or intermittently or iteratively. A particularly simple solution it is, the fan to undergo essentially continuous. It can be cheap the blowing time-dependent to regulate, for example, provide a timer or a Provide control that the ventilation device to very specific Times, for example a few hours before the typical one morning start of operation or if the system is longer than a certain time, for example, more than 6 hours off was. Different regulations are possible, on the one hand energy to save and on the other hand odor nuisance as far as possible to avoid. The controller may further be connected to a temperature sensor, for example the ambient temperature or the temperature in the filter device connected be such that operation and / or service life of the ventilation device alternatively or additionally temperature-dependent can be controlled. In similar Way, the controller can control the oxygen concentration in the wash water consider, so that the ventilation device Air after the actual Can inject demand. So you can put in such an amount of air the filter device bring in that the concentration of dissolved oxygen in the wash water at least 1.5 mg / l or more, for example at least about 2 mg / L or, for example, about 4 mg / L in the filter device or in the course of the water from the filter device.

Preferably, air in an amount of between about 10l is introduced per minute per m ³ and about 100 liters per minute per m ^3, preferred between about 15 l per minute per m ³ and about 60 l per minute per m ³ in the filter device.

Preferably is air with an overpressure of about 50 mbar to about 1 bar, preferably between about 75mbar to about 200 mbar preferably between about 75 mbar to about 150 mbar in introduced the filter device. There are fans at relatively low power consumption are capable of such relative huge Air quantities at such overpressures deliver.

The invention and embodiment of the invention will be explained below with reference to an exemplary embodiment shown in the drawing. Show it:

1 a schematic representation of a vehicle washing system according to the present invention; and

2 a detail of the car wash of the 1 partly in section.

1 shows a vehicle washing system according to the invention 2 and in particular a gantry system comprising a wash water recycling loop 4 with, in the direction of flow, a reservoir 6 . 8th , where the first reservoir 6 also as a mud catch basin and the second reservoir 8th Also referred to as a stack pool. Schematically is with 10 represented the earth's surface, one recognizes that the two collecting tanks 6 . 8th are arranged underground. It also recognizes an overflow 12 at the reservoir 6 , about the excess water from the mud basin 6 in the stack basin 8th can flow. In the reservoir 8th is a pump 14 typically a submersible pump 14 arranged. The pump 14 can typically provide an overpressure of about 1.5 to 2.5 bar and with this overpressure wash water from the stack tank 8th over a line 16 in a filter device 18 deliver. The pump 14 presses the water through the filter device 18 , through a process 20 and a drain line 22 in a storage container 24 , From the storage container 24 is required water from a high pressure pump 26 the washing portal 28 fed. In a wash water drain 30 the water is finally collected and discharged via the drainage pipe 32 back to the reservoir 6 . 8th returned.

A ventilation device 34 is for direct injection of air into the filter device 18 connected.

The filter device 18 is in 2 shown in detail. You can see the supply line 16 , the drain line 22 and a supply air line 36 in the one check valve 38 is arranged. The diagram is schematic, the inflows and outflows are each on the lines 16 . 23 . 36 shown with an indicated arrow. The in the 2 shown filter device 18 is a sand bed filter with a sand bed 40 on a filter star 42 is arranged.

The wash water is pumped through 14 during pumping through the sand bed 40 and through the filter star 42 pressed. The one from the pump 14 during operation generated wash water pressure in the filter device 18 is larger than that of the aeration device 34 during operation supplied overpressure in the supply air line 36 so that the check valve 38 is closed and no air from the aeration device 34 via the drain line 22 or the process 22 back to the filter device 18 can be blown.

Only at a pump break the air pressure is greater than the water pressure in the drain line 22 or the process 20 , whereupon the check valve 38 opens and air from below over the drain 20 in the filter device 18 blown. The air is distributed in a free space 44 under the filter star 42 and then becomes relatively even through the filter star 42 up through the sandbed 40 distributed. In this way, a relatively high oxygen concentration sets in the water in the filter device, which results in an aerobic degradation process in the filter device 18 favored. The air can be distributed directly through the filter star without being routed through a free space.

In the embodiment shown, air may escape from the aeration device 34 not only up in the filter device 18 but also flow through the drain line 22 in the storage container 24 , It may therefore be beneficial, even in the drain line 22 to provide a check valve such that air of the aeration device 34 only in the filter device 18 but not in the original container 24 is pumped. This check valve may be, for example, an electronically controlled valve responsive to signals indicating the operation of the pump 14 View, opens, allowing wash water through the check valve from the filter device 18 in the storage container 24 can be pumped. Of course, other constructions are possible. For example, in the 1 the supply air line 36 regardless of the process 20 or the drain line 22 intended. For example, blowing can be done directly in the sand bed 40 or at least with sufficient distance from the process 20 done so that no or virtually no air or at least only a negligible amount of air over the drain 20 and the drain line 22 in the storage container 24 arrives.

About the ventilation device 34 in the filter device 18 flowing air flows through the sand bed 14 and accumulates in the free volume above the sand bed 40 , You can by a deflation 46 , which may be formed in the manner of an air release valve, for example, are left out of the filter device. It is also possible to provide a relatively small air discharge opening through which, when a water pressure is applied due to the high flow resistance for the water, no appreciable amount of water flows out through the air discharge opening.

For the ventilation device, a relatively conventional fan or blower can be used. For example, there is the company MEDO blower under the designation LA 28B, which one for filter devices 18 may set up with a volume of less than 0.5 m ³ and a blower with the label LA 45B, which, for example, for filter means 18 may use <than 3 m ³ with a volume.

The ventilation device 34 For example, with the control of the vehicle wash 2 be coupled. But she can also work practically independently.

Claims (8)

Car wash ( 2 ) comprising a wash water reprocessing cycle ( 4 ) with - in the direction of flow - a reservoir ( 6 . 8th ), a filter device ( 18 ) and a storage container ( 24 ), in which reprocessed wash water is kept ready for vehicle washing, and further comprising one to the filter device ( 18 ) connected ventilation device ( 18 ) for blowing air into the filter device ( 18 ) is trained. Car wash ( 2 ) according to claim 1, wherein the filter device ( 18 ) is a gravel bed or sand bed filter. Car wash ( 2 ) according to claim 1 or 2, wherein the filter device ( 18 ) a drain line ( 22 ) and the ventilation device ( 34 ) to the drain line ( 22 ) connected. Car wash ( 2 ) according to one of claims 1 to 3, further comprising a pump ( 14 ), which in use depending on the washing water requirement wash water through the filter device ( 18 ) and in the storage container ( 24 ), wherein pumping phases and pumping pauses alternate. Car wash ( 2 ) according to claim 4, wherein the ventilation device ( 34 ) is designed such that it allows air during pump breaks in the filter device ( 18 ). Car wash ( 2 ) according to claim 5, wherein the ventilation device ( 34 ) is designed such that in use it generates an air overpressure which is lower than that of the pump ( 14 ) generated wash water pressure in the filter device ( 18 ). Car wash ( 2 ) according to claim 5 or 6, wherein the ventilation device ( 34 ) with an air supply line ( 36 ) to the filter device ( 18 ) and wherein a check valve ( 38 ) in the supply air line ( 36 ) is provided, which is arranged such that at a water pumping pressure in the drain line ( 22 ) the check valve ( 38 ) and blowing air into the filter device ( 18 ) is prevented. Car wash ( 2 ) according to one of claims 1 to 7, further comprising a at the uppermost end of the filter device ( 18 ) connected air release valve, which is designed such that it is air from the filter device ( 18 ), but prevents leakage of water.