PL67735Y1 - Water purification filter - Google Patents

Abstract

The filter is characterized by the fact that a column with a mechanical insert (4) is connected to the output of the electric water pump (1), the output of which is connected to a pressure sensor and to the inputs of two membrane columns. The first outputs of the membrane columns are connected through quick couplers, the first solenoid valves are connected to the input of the first coal column (13), and the second outputs are connected through the second solenoid valves to the drainage hose. The output of the first carbon column (13) is connected through the first ball valve with the input of the second carbon column and through the second ball valve and flow sensor (22) with the ultraviolet column (23), to which the output is connected to the receiving hose (24), and the second output the second carbon column is connected through a check valve and a flow sensor (22) to the ultraviolet column (23). The power supply connection (26) is connected to the first socket (27) of the power supply unit (28) with four batteries of photovoltaic cells (29). The power supply unit (28) includes a second socket (30) for connecting an alternating current source with a voltage of 230 V and a third socket (31) for connecting a battery with a voltage of 10 V to 30 V.

Description

Pattern description

The subject of the utility model is a filter for water purification, designed to purify water from surface sources for the needs of the Polish Armed Forces, especially in peacekeeping and stabilization missions, as well as in the State Fire Service and rescue groups.

A water purification filter is known from the Polish description of utility model No. 63319, which includes an electric water pump connected by a raw water discharge hose to the raw water tank and a first electric wire to the pump unit, which is connected to the power generator by a second electric wire. The pump unit is connected by a suction hose to the raw water tank and by a first discharge hose to the first carbon filter. This, in turn, is connected through the second discharge hose, the second carbon filter, the third discharge hose, the ionite filter and the fourth discharge hose with the clean water tank. The clean water tank has a fifth discharge hose attached at one end in the lower part, while the pumping unit is equipped with a pressure gauge and rotameter.

The essence of the utility model is that the output of the electric water pump is connected to the entrance of the column with a mechanical cartridge, the output of which is connected through the first tee with the pressure sensor and through the first tee and the second tee with the inputs of two membrane columns. The first outputs of the diaphragm columns are connected through the third tees, quick couplings, solenoid valves and the fourth tee with the inlet of the first carbon column, while the second outlets are connected through solenoid valves and the fifth tee with the effluent hose. The output of the first carbon column is connected through the sixth tee and the first ball valve to the inlet of the second carbon column, and through the sixth tee, the second ball valve, the seventh tee and the flow sensor with the ultraviolet column. The output of the second carbon column is connected to the seventh tee through a check valve. The power supply connection, on the other hand, is connected via the first socket of the power unit to the four photovoltaic cells. The power unit also includes a second socket for connecting a battery with a voltage from 10 V to 36 V and a third socket for connecting a power source from a 230 V stationary power network.

The advantage of the solution, according to the utility model, is that the design of the filter enables the use of technology using the ultrafiltration process supported by microfiltration, sorption and ion exchange. The design solution according to the utility model enables electric power supply with the use of a generating set consisting of a battery of photovoltaic cells, a battery with a voltage from 10 V to 36 V and a stationary power network with a voltage of 230 V. Automatically started as a result of pressure increase in the system, the reverse flushing process in significantly reduces the risk of too frequent blockage of the membranes, increases the amount of filtrate produced and at the same time reduces the amount of leachate. The use of an electric water pump with low energy consumption for pumping water eliminated a large, loud and heavy power generator. The main advantage of the solution is its autonomy in operation in field conditions in the absence of power from a 230 V stationary electrical network.

The object of the utility model is shown in the drawing, in which fig. 1 shows the water purification filter in the working position, fig. 2 - a filter without a power source in the front view, and fig. 3 - a filter without a power source in a rear view.

The filter for water purification comprises an electric water pump 1, to the inlet of which a suction hose 2 with a mesh filter 3 is connected, and a column with a mechanical cartridge 4 to the outlet. The outlet of the column with a mechanical cartridge 4 is connected via the first tee 5 with a pressure sensor 6 and via the first tee 5 and the second tee 7 with the inputs of two membrane columns 8. The first outputs of the membrane columns 8 are connected by the third tees 9, quick couplings 10, the first 11 solenoid valves and the fourth tee 12 with the input of the first carbon column 13, while the second outputs are connected through the second solenoid valves 14 and the fifth tee 15 are connected to the effluent hose 16. The output of the first carbon column 13 is connected via a sixth tee 17 and a first ball valve 18 to the inlet of the second carbon column 19 and through a sixth tee 17, a second ball valve 20, a seventh tee 21 and a flow sensor 22 with a column of ultraviolet 23, the outlet of which is connected to the receiving hose 24, connection The second output of the second carbon column 19 is connected via a check valve 25 with a seventh tee 21. The power supply connection 26 is connected via the first socket 27 of the power unit 28 with four batteries of photovoltaic cells 29. The power unit also includes a second socket 30 for connecting a power source alternating voltage with a voltage of 230 V and a third socket 31 for connecting a battery with a voltage from 10 V to 30 V.

Claims (2)

Protective claims 1. Filter for water purification, comprising columns, discharge hoses connecting the filter components, electric water pump, the input of which is connected to a suction hose with a mesh filter, electric wires, receiving hose, characterized in that to the output of the electric water pump (1) , a column with a mechanical insert (4) is connected, the output of which is connected through the first tee (5) with the pressure sensor (6) and through the first tee (5) and the second tee (7) with the inputs of two membrane columns (8), the first outputs are connected through the third tees (9), quick couplings (10), the first electrovalves (11) and the fourth tee (12) with the first carbon column inlet (13), while the second outputs are connected through the second electrovalves (14) and the fifth tee (15) ) are connected to the effluent hose (16), the outlet of the first carbon column (13) is connected through the sixth tee (17) and the first ball valve (18) with the inlet of the second carbon column (19) and through the sixth tee (17), the second ball valve (20), the seventh tee (21) and the flow sensor (22) with the ultraviolet column (23), to the outlet of which is connected the receiving hose (24), and the second outlet of the second carbon column (19) is connected via a check valve (25) with a seventh tee (21), while the electrical supply connection (26) is connected via the first socket (27) of the power unit (28) with four photovoltaic cells (29). 2. Water purification filter according to claim 1, A device according to claim 1, characterized in that the supply unit (28) comprises a second socket (30) for connecting an alternating current source with a voltage of 230 V and a third socket (31) for connecting a battery with a voltage of 10 V to 30 V.