DE29701865U1 - Mobile water cycle treatment plant for washing systems for cleaning vehicle lower parts and vehicle tires - Google Patents

Description

Mobile water cycle treatment plant

for car washes for cleaning of vehicle undercarriages and vehicle tires

The invention relates to a water cycle treatment system for separating solid and quasi-solid substances from waste water for the purpose of continuously reusing the purified water for washing systems, in particular for washing systems for cleaning vehicle underparts and vehicle tires of all types.

At present, such washing systems are known in various forms, designs and functions. They are used to clean the undersides and tires of vehicles that leave contaminated terrain. This is intended to prevent public roads from becoming contaminated. It has been proven that washing systems equipped with a spray system are the most effective, although they have significant disadvantages compared to the water treatment systems used to date. For example, they are too expensive to maintain when using fresh water or flocculants. When using purification and settling tanks, the space required is too large and when simply draining into the sewer system, the groundwater pollution is enormous. The water treatment systems used to date therefore require a very large area or space to treat large quantities of wastewater and, above all, need sufficient time to carry out the settling process to a sufficient extent using gravity. In practice, however, it turns out that due to the usually very high sequence of washing processes, the time required for reprocessing is not available, so that the cleaning performance is not sufficient and heavily contaminated water must then be reused.

Based on this, the invention is based on the task of designing the water cycle treatment plant in such a way that it is cost-effective, compact and structurally simple, mobile and weather-independent and also realizes a continuous, high-quality treatment of large quantities of waste water within a short time.

The invention is illustrated in the drawings and described in more detail below.

Fig. 1 Illustration of the water cycle treatment system Fig. 2 Illustration of the integration of the overflow into the storage tank Fig. 3 Installation variant of the container in combination with a washing system

The object is achieved according to the invention in that the entire water cycle treatment system, including the control system, is installed in an insulated container. The connections (11) required for coupling to any washing system are led to the container walls. A connection for refilling the water cycle treatment system inside the container is not necessary, since refilling can be carried out directly into the dirty water basin of the respective washing system due to the low losses caused by spray mist or pearl adhesion to the cleaned vehicles. The amount of water in the water cycle treatment system is relatively small and is automatically balanced out during operation.

According to the invention, the dirty water is sucked out of the washing system using a solids-compatible pump (5) and fed to a cyclone system (2) at a defined pressure and in a defined quantity. Here, solids are separated from the water in accordance with the way cyclones work. The cleaned water (7) flows into a small storage container (1), and the separated solids flow back into the dirty water basin via a pipe or hose connection. Alternatively, it is possible to extract some or all of the solids from the water circuit, which is then dewatered (6) to minimize water losses and the recovered water is fed back into the water circuit system.

The purified water in the storage tank (1) is used again for spraying and washing in the car wash by means of a pump (3). This closes the water cycle again according to the invention.

The way cyclones work and the associated degree of water purification is influenced by the precisely defined feed pressure, the precisely defined feed quantity and the exact size of the nozzles at the water outlet (vortex) and solids outlet (apex) of the cyclones. This means that a separation cut that is specifically adapted to the respective cleaning task can be precisely set and, if necessary, changed. It is possible to separate the solids from the waste water down to a minimum particle size of 0.007 mm with a separation value of d50, equivalent to 0.015 mm at d95.

The advantages of using cyclones are clearly evident here. In comparison to previously used water cycle treatment systems, an exceptionally high degree of purification is achieved, and the required water volumes only require a very short treatment time. Another advantage of using cyclones is that they are maintenance-free, wear-resistant and have no moving parts.

The cyclone overflow (cleaned water) (7) flows into the storage tank 1), which is also located in the container and can have a size of 1 to 10 m ³ depending on the task. The pump (3) which draws water from this tank conveys the water to the spray device of the washing system and thus closes the water circuit again according to the invention. When the storage tank (1) is full, the cleaned water which continues to flow flows through the existing overflow line (9), cross-section corresponding to the amount of water, to the dirty water basin of the washing system and thus closes the water circuit again according to the invention. The overflow line (9) is connected to the storage tank (1) in such a way that the storage tank (1) cannot become silted up either during continuous operation or when the spray system is not in use. It is advantageous to connect the overflow line (9) of the storage tank (1) to the return line (8) for the solids of the cyclone system. When using the alternative of removing and draining the solids (6), it is better not to incorporate the relatively large amounts of water from the overflow (9) from the storage tank (1) into the drainage (6), but to return them separately. The small amounts of water that accrue during the drainage (6) of the solids can be added back to the overflow return flow (4).

To ensure continuous wastewater treatment, it is possible according to the invention to operate the circulation pump (5), and thus the water circuit, continuously. By using the removal of solids (6) from the water circuit, the water quality improves continuously as long as no new water contamination occurs through spraying and washing processes in the washing system. When such processes are carried out, the continuous operation of the circulation system prevents the circulation water from becoming enriched with solids, thus preventing the collapse of the circulation system.

The electronic control system (PLC) belonging to this water cycle treatment system regulates the pump running times. This is done via the level controls in the storage tank (1) and in the dirty water basin of the washing system. By exchanging signals with the sensors installed on the washing system or, if possible due to local conditions, by using sensors installed on the container to scan the washing system occupancy and control the level, it is possible to programmatically control the pump switching times, washing duration, level control and the traffic light required to enter the washing system. The level monitoring for the spray pump is carried out using a probe (10) on the storage tank (minimum) as dry-run protection. The level monitoring for the circulation pump (5) is carried out via a probe on the dirty water basin of the washing system (maximum/minimum) as dry-run or overflow protection.

By using the water cycle treatment system in a container, the mobility of this system is guaranteed at all times. The personnel and technical effort required to set up and remove the container is very low, as is the amount of time. There are no special requirements for the ground conditions of the installation site, other than that it must be level. This makes this water cycle treatment system particularly suitable for areas where the washing system can be used in areas such as mobile construction sites (e.g. motorway construction), waste disposal sites or areas affected by epidemics in agriculture.

Alternatively, it is possible to use an individual generator to power the system, as only a small amount of electricity is required for the 2 pumps, heating, lighting and control. This generator can be installed with little effort. It can be fed into the container circuit. This means that this water cycle treatment system guarantees enormous mobility, especially since the insulated container also serves as sound insulation and, thanks to the built-in heating, also enables winter operation.

Claims (18)

Expectations 1. The mobile water circuit treatment system for washing systems for cleaning vehicle underparts and vehicle tires, characterized in that the entire water treatment system including the water supply is installed in a container. 2. The mobile water circuit treatment system for washing systems for cleaning vehicle underparts and vehicle tires according to claim 1, characterized in that the container is insulated. 3. The mobile water circuit treatment system for washing systems for cleaning vehicle underparts and vehicle tires according to claim 2, characterized in that the treatment system can be used for winter operation with the use of a heater. 4. The mobile water cycle treatment system for washing systems for cleaning vehicle underparts and vehicle tires according to claim 2, characterized in that sound insulation is ensured when a power generator is used. 5. The mobile water cycle treatment system for washing systems for cleaning vehicle underparts and vehicle tires according to claim 1, characterized in that the container can be locked and thus provides effective protection against theft and sabotage. 6. The mobile water circuit treatment system for washing systems for cleaning vehicle underparts and vehicle tires according to claim 1, characterized in that continuous waste water treatment is carried out by using a cyclone system (2). 7. The mobile water cycle treatment system for washing systems for cleaning vehicle underparts and vehicle tires according to claim 6, characterized in that the solid is separated from the waste water up to a minimum particle size of 0.007 mm at a separation value of d50, equivalent to 0.015 mm at d95. 8. The mobile water cycle treatment system for washing systems for cleaning vehicle underparts and vehicle tires according to claim 7, characterized in that the separated solids of the waste water can be optionally discharged after exiting the cyclone underflow. 9. The mobile water circuit treatment system for washing systems for cleaning vehicle underparts and vehicle tires according to claim 8, characterized in that the
The solid matter (8) is returned to the waste water basin of the washing system, where it is removed in accordance with the maintenance instructions of the existing washing system. lO.The mobile water cycle treatment system for washing systems for cleaning vehicle underparts and vehicle tires according to claim 8, characterized in that a
Dewatering of the solids (6) takes place and the recovered water is returned to the
circulatory system. l.The mobile water cycle treatment system for washing systems for cleaning vehicle underparts and vehicle tires according to claim 1, characterized in that the necessary electronics and sensors for monitoring the treatment system are installed in or on the container.
and the car wash. 12.The mobile water cycle treatment system for washing systems for cleaning vehicle underparts and vehicle tires according to claim 11, characterized in that a traffic light is installed on one side of the container, the release or blocking of the washing system
for the vehicles to be washed. 13.The mobile water circuit treatment system for washing systems for cleaning vehicle underparts and vehicle tires according to claim 6, characterized in that a
Circulation pump (5) sucks the dirty water out of the washing system and pumps it into the cyclone system (2) with a defined pressure and a defined quantity. 14.The mobile water circuit treatment system for washing systems for cleaning vehicle underparts and vehicle tires according to claim 13, characterized in that the cleaned water from the cyclone overflow (7) is fed into a storage tank (1) of a maximum of 10 m ³ . 15.The mobile water circuit treatment system for washing systems for cleaning vehicle underparts and vehicle tires according to claim 14, characterized in that a pump (3) sucks the cleaned water out of the storage container (1) and pumps it at a defined pressure and a defined quantity into the spray device of the washing system. 16.The mobile water circuit treatment system for washing systems for cleaning vehicle underparts and vehicle tires according to claim 13, characterized in that the storage container is provided with an overflow which directs the excess water back into the dirty water basin of the washing system. 17.The mobile water circuit treatment system for washing systems for cleaning vehicle underparts and vehicle tires according to claim 16, characterized in that the integration of the overflow (9) into the storage container (1) is carried out in such a way that silting up of the storage container (1) is avoided. 18.The mobile water circuit treatment system for washing systems for cleaning vehicle underparts and vehicle tires according to claim 15, characterized in that a probe (10) is installed in the storage container (1), which switches off the pump (3) when the water level is at a minimum.