BE1019830A3 - MOBILE WATER TREATMENT PLATFORM. - Google Patents

Abstract

Mobile water treatment platform, comprising a platform on which the following water treatment devices are mounted: a suction pump; a filter system (14-16) with at least one filter, a purifier (19-20), and an output system (22-23). The output system has a filling device (23), comprising a roll holder (25) for holding a roll of plastic film (24), cutting means for cutting off film parts from the roll of plastic film, welding means for sealing the edges of the film parts in such a way forming bags from the film parts, filling means for filling the bags with water supplied to the discharge system and discharge means (27) for carrying out the bags filled with water.

Description

Mobile water purification platform. Technical area

This invention relates to a mobile water treatment platform according to the preamble of the first claim.

Technical background

Known mobile water treatment platforms include a filter device and a purification device for purification by reverse osmosis. The purified water is exported via a simple outlet pipe. To be able to transport this water further, a separate filling device must be placed, with which the purified water can be stored in, for example, plastic bottles. Such a filling device uses compressed air to inflate preforms to the plastic bottles.

It is a disadvantage of these known devices that two separate systems must be supplied, namely the water purification platform and the separate filling device.

Explanation of the invention.

It is an object of the invention to provide a water purification platform, wherein a filling device is provided on the platform.

This object is achieved according to the invention with the water purification platform which has all the features of the first conclusion.

The mobile water treatment platform according to the invention comprises a platform on which the following water treatment devices are mounted: - a suction pump for sucking water to be purified via a supply line; - a filter system with at least one filter, downstream coupled to the suction pump and provided for filtering the water supplied by the suction pump; - a purification device coupled downstream to the filter system and provided for purifying the water filtered through the filter system; and - an output system, downstream coupled to the purification device, which has a filling device.

The filling device comprises a roll holder for holding a roll of plastic film, cutting means for cutting off film parts from the roll of plastic film, first welding means for sealing the edges of the film parts in order to form bags from the film parts, filling means for filling the bags with water supplied to the output system and output means for exporting the bags filled with water.

An analysis of the problem of the known devices has shown that the filling devices that store the water in plastic bottles need a compressor for the required compressed air and are therefore too large to be supplied on the water treatment platform. By using a filling device according to the invention that stores the purified water in bags, the need for compressed air and consequently the compressor is avoided and the filling device is compact enough to be placed on the water purification platform itself. This has enormous advantages from a logistical point of view.

In preferred embodiments of the invention, the filling device is located at a corner of the platform that is formed by a first side and a second side, wherein the roll holder is directed to the first side and the output means to the second side. In this way the roll holder and the output means are easily accessible to the user.

In preferred embodiments of the invention, a first buffer tank is mounted on the platform for buffering water supplied via the suction pump.

In preferred embodiments of the invention, a second buffer tank is attached to the platform for buffering water supplied to the delivery system.

In preferred embodiments of the invention a diesel generator is mounted on the platform in a first compartment which is separated from a second compartment by means of a partition wall, in which the water treatment devices are located. In this way, contamination of the water by diesel is avoided.

In preferred embodiments of the invention, the filter system successively comprises a sand filter, an active carbon filter, and a nanofilter.

In preferred embodiments of the invention, the purification device comprises the following components: - a delivery pump for increasing the pressure in the water supplied to the purification device; - at least one reverse osmosis filter for treating supplied water by means of reverse osmosis, wherein purified water and a concentrate are formed; - a recirculation line for at least partially reusing the concentrate; - control means for checking the quality of the purified water.

In preferred embodiments of the invention, the platform comprises a bypass line for bypassing the purification device, the bypass line being coupled to a first valve between the filter device and the purification device and a second valve between the purification device and the output device, and wherein the first and second valves are controlled by control means for checking the quality of the water to be purified. In this way the platform is suitable for purifying practically all types of water and the purification device can be switched off if the filtering is sufficient.

In preferred embodiments of the invention, the platform has a casing that shields the devices mounted on the platform from the environment, the casing having at least a first hatch at the level of the roll holder and a second hatch at the level of the output means, where the bags filled with water leave the platform.

Brief description of the drawings

The invention will be explained in more detail below with reference to the following figures.

Figure 1 shows a perspective view of a filling device for use on a platform according to the invention.

Figures 2 and 3 show perspective images of an advantageous embodiment of a mobile water purification device according to the invention, in which the housing is omitted in Figure 2. _

Embodiments of the invention

The present invention will be described with reference to certain embodiments and with reference to certain drawings, but the invention is not limited thereto and is only determined by the claims. The described drawings are only schematic and non-limiting. In the drawings, the size of certain elements may be exaggerated and not drawn to scale for illustrative purposes. The dimensions and the relative dimensions do not necessarily correspond to actual practical embodiments of the invention.

In addition, the terms first, second, third and the like in the description and in the claims are used to distinguish between similar elements and not necessarily to describe a sequential or chronological order. The terms are interchangeable under appropriate conditions and the embodiments of the invention may be used in sequences other than described or illustrated herein.

In addition, the terms top, bottom, over, under and the like in the description and claims are used for illustrative purposes and not necessarily to describe relative positions. The terms thus used are interchangeable under suitable conditions and the embodiments of the invention described herein may be used in orientations other than those described or illustrated herein.

The term "comprising", used in the claims, is not to be interpreted as being limited to the means mentioned below and does not exclude other elements or steps. The term is to be interpreted as specifying the presence of the aforementioned features, elements, steps or components referred to, but does not exclude the presence or the addition of one or more other features, elements, steps or components, or groups thereof . The scope of the expression "a device comprising means A and B" should not be limited to devices that only consist of components A and B. It means that with regard to the present invention, the only relevant components of the device are A and B.

The mobile water treatment platform shown in Figs. 1-3 comprises a platform 1 on which a number of devices are mounted. The platform is of the "skid" type, a platform that can be transported on a truck and by means of. a fork lift is liftable.

The following water treatment devices are mounted on the platform: - a suction pump (not shown) for sucking water to be purified via a supply line 13 and a pressure pump 18 which ensures that the water under pressure (e.g. 6 bar) through the filters 14- 16 passes; - a first buffer tank 21 for buffering water supplied via the suction pump; - a filter system with successively a sand filter 14, an active carbon filter 15 and a nano filter 16, coupled downstream to the pressure pump 18 and provided for filtering the water supplied by the suction pump; a purification device 19-20, downstream coupled to the filter system and provided for purifying the water filtered through the filter system; and - an output system, coupled downstream to the purification device, which has a filling device 23 and a second buffer tank 22 for buffering water supplied to the output system.

The suction pump is a self-priming pump and pumps the water from a dirty water tank into the skid. This pump has a flow capacity of 6 m3 / h and a low head. After the pressure pump 18 is a pressure switch that stops the pumps if the pressure in the pipe for the first filter 14 becomes too high.

For the filters 14-16, a quality check is made of the water using a conductivity measurement 17; this determines if the water must pass through the reverse osmosis purifier.

The sand filter 14 filters the coarse dirt and filters it with sand with a grain size of 2-3 mm and 0.4-0.8 mm. This filter has a backwash system to be able to clean the filter without having to remove the sand from the filter. A mechanical timer can be set to automatically run the backwash.

After the sand filter 14, the water passes through the active carbon filter 15. This filter filters the organic material. This filter also has a backwash system to be able to clean the filter without removing all the charcoal. A mechanical timer can be set to automatically run the backwash.

After the carbon filter 15, the water passes through a nano filter 16, which will filter extra fine to 1pm to protect the membranes from reverse osmosis.

There is a pressure switch after the filters 14-16 to check that sufficient pressure is present (if not, the filters are dirty).

After the nano filter 16, the water passes through two 3-way faucets. These taps will ensure that the water will or will not go through the reverse osmosis (will be controlled with the first conductivity measurement 17).

The reverse osmosis purifier has a pump (not shown) that raises the pressure of the water to, for example, 18 bar to pass through the 2 membranes of the reverse osmosis tanks 19-20. The purification plant works with a recirculation of 50% such that the concentrate (water with a high salt content) is reused and mixed with the incoming water. The other 50% of the concentrate is discarded. The purified water leaves the membranes and is checked again with a conductivity measurement. If the water is not pure enough, it again passes through the reverse osmosis tanks 19-20.

450 liters of potable water can be stored in the water tank 22. This tank is under atmospheric pressure above the filling device 23 such that the water flows into the filling device via gravitation. Between the tank 22 and the filling device 23, the water still passes through a UV filter (not shown) around bacteria.

A chlorine dosing unit (not shown) can be used to add chlorine and to increase the shelf life of the water.

In the filling device, which is shown in detail in Figure 1, a dosing pump doses the correct amount of water to fill bags of 25 cl to 1 liter. The filling device 23 is a vertical fill and seal machine. It has a connection 26 at the top, through which the water can flow. On a first side the device has a roll holder 25, on which a roll of foil 24 is attached. The foil passes through the device via a folding system. The film is folded exactly in 2 and the sides and bottom are welded, so that a bag is formed from the film. Welding is done with a welding jaw, the temperature of which can vary to be able to work with different types of film thicknesses. An exact amount of water is pumped into the bag via a filling nozzle and the dosing pump, after which the bag with the welding jaw is closed and falls out of the device 23 via gravity 27. The bag size and volume of water can be adjusted with Potentiometers to produce bags of 25cl to 1 liter. The device is free of compressed air, all moving parts are controlled via electric motors.

The electricity is supplied by a diesel generator 1.1, but can, for example, also be connected to an electricity network. An electric cabin 12 contains the fuses and a PLC that provides automatic control of the skid. Operation is via a simple touch screen.

The diesel generator 11 and the electric cabin 12 are separated by partitions from the compartment in which all devices that treat the water are located. In this way the risk of contamination and also the risk that the water comes into contact with the electrical facilities is avoided as much as possible.

The filling device 23 is located at a corner of the platform 1, which is formed by a first side and a second side, the roll holder 25 facing the first side and the slide, along which the filled bags fill the device and the skid to the second side. The platform 1 has a casing 2 that shields the devices mounted on the platform from the environment. The casing has first hatches 3, 4 at the level of the roll holder 25, a second hatch 5 at the level of the bag outlet 27, where the bags filled with water leave the platform, a third hatch 6 at the level of the reverse osmosis filters 19-20 and a fourth hatch 7 at the height of the electric cabin 12. A series of meters 8 are arranged on the side of the casing, on the basis of which various parameters measured in the purification system are brought out.

Within the scope of the invention, numerous variants of the embodiment shown in the figures are conceivable. For example, other types of platforms than a skid 1 are also possible. The filter system 14-16 may comprise any type of filters that the skilled person considers suitable. The purification system 19-20 may comprise any type of purification filters that the skilled person considers suitable.

Claims (10)

A mobile water treatment platform, comprising a platform on which the following water treatment devices are mounted: a suction pump for sucking water to be purified via a supply line (13); a filter system (14-16) with at least one filter, coupled downstream to the suction pump and provided for filtering the water supplied by the suction pump; a purification device (19-20) coupled downstream to the filter system and provided for purifying the water filtered through the filter system; and an output system (22-23) coupled downstream to the purifier; characterized in that the output system comprises a filling device (23) comprising a roll holder (25) for holding a roll of plastic film (24), cutting means for cutting off film parts from the roll of plastic film, welding means for sealing edges of the film parts so as to form bags from the film parts, filler means for filling the bags with water supplied to the output system and output means (27) for outputting the bags filled with water. A mobile water treatment platform according to claim 1, characterized in that the filling device (23) is located at a corner of the platform formed by a first side and a second side, the roll holder (25) facing the first side and the output means (27) to the second side. A mobile water treatment platform according to claim 1 or 2, characterized in that a first buffer tank (21) is attached to the platform for buffering water supplied via the suction pump. Mobile water purification platform according to one of claims 1 to 3, characterized in that a second buffer tank (22) is attached to the platform for buffering water supplied to the output system. Mobile water treatment platform according to one of claims 1-4, characterized in that a diesel generator (11) is mounted on the platform in a first compartment which is separated from a second compartment by means of a partition wall, in which the water treatment devices (14-) are located. 23). Mobile water purification platform according to one of claims 1 to 5, characterized in that the filter system successively comprises a sand filter (14), an active carbon filter (15) and a nanofilter (16). A mobile water purification platform according to any one of claims 1-6, characterized in that the purification device comprises the following components: a boost pump for boosting the pressure in the water supplied to the purification device; at least one reverse osmosis filter (19-20) for treating supplied water by reverse osmosis, thereby forming purified water and a concentrate; a recirculation conduit for at least partially reusing the concentrate; control means for checking the quality of the purified water. Mobile water purification platform according to any of claims 1-7, characterized in that the platform comprises a bypass line for bypassing the purification device, the bypass line being coupled to a first valve between the filter system (14-16) and the purification device (19 -20) and a second valve between the purifier (19-20) and the output system (22-23), and wherein the first and second valves are controlled by control means (17) for controlling the quality of the water to be purified. The mobile water treatment platform according to any of claims 1-8, characterized in that the platform has a casing (2) that shields the devices mounted on the platform from the environment, the casing at least a first hatch (3, 4) ) has at the level of the roll holder (25) and a second hatch (5) at the level of the discharge means (27), where the bags filled with water leave the platform. A mobile water treatment platform according to any one of claims 1-9, characterized in that the platform is a skid.