Abstract:
A charging conduit extends from a source of grey water to a separate inlet of two tanks arranged in parallel. A discharging conduit extends from a separate outlet of each tank to the source of grey water for recycling the grey water. Upper and lower level-detectors are provided for each tank and a flow detector monitors the flow of grey water through the discharging conduit. Valves control the flow of grey water into and out of each tank and respond to the level of grey water in the tanks monitored by the level-detectors.

Description:
FIELD OF THE INVENTION 
       [0001]    This invention relates to the recycling of waste or grey water and more particularly to the recycling of waste or grey water in a way which minimizes the build-up of bacteria and precipitates in the water. 
       BACKGROUND OF THE INVENTION 
       [0002]    In my application for a patent filed in the Canadian Intellectual Property Office on May 2, 2008 as U.S. Pat. No. 2,630,332 I describe a method and apparatus for recycling water after use in commercial processes such as laundries in hospitals, hotels or in laundromats. The method and apparatus are also useful in industrial processes such as in bottling plants where bottles must be sterilized in hot water. The waste or grey water, referred to below as grey water, while not potable, is reasonably clean after use and is suitable for reuse in many processes where non-potable water is permissible. Significant savings are achieved by recycling and reusing such grey water over using fresh water in such processes. 
         [0003]    In many commercial and industrial processes, water is consumed periodically but not continuously. For example, a washing machine, even if it is operating continuously, requires water during its washing and rinsing cycles hut not between the cycles and not during the drying cycle. In a hospital or hotel, washing machines are usually not operating continuously but only during part of the day so that not only do they not require water when, they are not operating but also, periodically, when they are. While the machines are operating, grey water must be stored and available for immediate use. 
         [0004]    While the machines are not in use, grey water must be stored for later use. While the grey water is being stored, bacteria may form in it. As well, soluble impurities and impurities in suspension may settle on die interior surfaces of the containers in which the grey water is stored and clog the flow of grey water through the containers. 
         [0005]    In a conventional installation, grey water is stored in a single tank. Incoming water is mixed with the water that is presently in the tank and bacterial growth is minimized by the addition of chemicals into the tank, The constant addition and extraction of grey water from the tank does not completely remove old grey water that has been in the tank for a prolonged period of time and that water, even if only a trace, is a source of bacteria. The only way to ensure that this old grey water is not present in the tank is to completely drain the tank. Alternatively the contents of the tank can be chemically shocked in order to kill the bacteria in the old water. 
         [0006]    The less time that grey water is stored, the less growth of bacteria and the less precipitation of impurities occur. To minimize the storage time, the first quantity of grey water stored should be the first quantity of grey water recycled and reused. In other words, storage and reuse should occur on a so-called “FIFO” sequence in which grey water which first flows into storage should he the first water to be withdrawn from storage and recycled. Preferably, in addition to that, the tank in which the grey water should he periodically drained to remove all traces of old water. 
       SUMMARY OF THE INVENTION 
       [0007]    I have invented a process and an apparatus in which grey water is recycled and reused on a FIFO sequence. Briefly the apparatus of my invention includes two tanks, one referred to below as “tank A” and the other as “tank B”. A charging conduit extends from a source of grey water to a separate inlet of each tank and a discharging conduit extends from a separate outlet of each tank to a source of grey water. Valves at the inlets of the two tanks control the flow of grey water from the charging conduit into the tanks. The inlet valve of tank A is normally open while the other inlet valve is normally closed. Upper and lower level-detecting means detect preselected maximum and minimum levels of grey water within each tank and valves at the outlet of the two tanks control the flow of grey water into the discharging conduit from the tanks. 
         [0008]    There is means responsive to detection by the upper level-detecting means in tank A that the level of grey water within the tank has reached the maximum level for causing the inlet valve of that tank to close and the inlet valve of tank B to open with resulting termination of the flow of grey water from the charging conduit into tank A an initiation of the flow of grey water into tank B. There is also means, responsive to detection by the upper level-detecting means of tank B, that the level of grey water within that tank has reached the maximum level for causing the latter valve to close and for causing the inlet valve of tank A to open, with resulting termination of the flow of grey water from the charging conduit into tank B and resumption of the flow of grey water into tank A. 
         [0009]    There is a flow-detecting means for detecting the flow of grey water through the discharging conduit and for opening the outlet valve of tank A with resulting initiation of the flow of grey water from tank A into the discharging conduit. A first overriding means is responsive to detection by the lower level-detecting means in tank A that the level of grey water within tank A is below the minimum level for overriding the outlet valve of that tank with resulting closing of the latter valve and opening of the outlet valve of tank B. A second overriding means is responsive to detection by the lower level-detecting means that the level of grey water within tank B is below the minimum level for overriding the outlet valve of that tank with resulting closing of the latter valve and opening of the outlet valve of tank A. 
     
    
     
       DESCRIPTION OF THE DRAWING 
         [0010]    The drawing is a schematic representation of the components of the apparatus of the invention. 
       
    
    
     DESCRIPTION OF PREFERRED EMBODIMENT  
       [0011]    With reference to the drawing, a conventional washing machine is identified by the numeral  10  and constitutes the source of grey water for purposes of the description which follows. As previously indicated however, the grey water may originate from other sources such as laundries in hospitals and hotels and bottling plants. Rain water may also be the source of the grey water. 
         [0012]    The grey water from the washing machine can comprise both usable and unusable grey water in the subject process. Grey water is water that is mildly contaminated by non-toxic pollutants such as small quantities of sand and mud and household waste such as left-over food and vegetable cuttings. Water produced during the rinsing cycle of a washing machine is generally usable for recycling in the subject process but water produced during the washing cycle may not be, particularly where clothes being washed are heavily soiled or contaminated by oil or lubricants. Unusable grey water is discarded by being flushed down a drain. 
         [0013]    Rinse water and relatively clean water produced during the washing cycle, referred to below as grey water, flows into a charging conduit  12  which extends from the washing machine to two tanks, a first tank A and a second tank B. Valves  14 A,  14 B at the inlets of the two tanks control the flow of grey water into the tanks. Valve  14 A is normally open while valve  14 B is normally closed. 
         [0014]    Upper and lower level switches  16 A,  18 A are provided in tank A. The upper level switch is activated when the level of grey water in the tank exceeds a preselected maximum value while the lower switch is activated when the level of grey water drops below a preselected minimum value. Similarly, upper and lower level switches  16 B,  18 B are provided in tank B. 
         [0015]    Grey water above the maximum level in the two tanks discharges to a drain through conduits  20 A,B while grey water below the minimum level, when the lower level switches detect that the level of grey water is below the minimum level, discharge to a drain through purge valves  22 A,B at the bottom of the two tanks. 
         [0016]    Valves  24 A, B at the outlets of the two tanks control the flow of grey water into a discharging or return conduit  26 . The latter conduit forms a return portion of a loop or circuit which extends from the tanks to the washing machine. Charging conduit  12  forms the forward portion of the loop. 
         [0017]    A flow switch  30  is provided in the loop for detecting the movement of grey water in Ute return portion of the loop. When it detects movement, it causes a pump  32  to activate to cause the grey water to flow to the washing machine. A check valve  34  ensures that the flow is from the tanks to the washing machine and not in the opposite direction. 
         [0018]    Pressure is maintained within the loop by means of pressurized water from a municipal source. Water from the municipal source flows through branch  40 - 1  of a conduit to the loop. A check valve  42  in the latter conduit prevents the grey water in the loop from flowing into conduit  40 - 1  and a normally open fresh water valve  44  in conduit  40 - 1  closes when flow switch  30  detects movement of grey water in the loop. Water from the municipal source also flows through branch  40 - 2  to the two tanks A,B and spray valves  46 A,B control the flow of water from branch  40 - 2  into the tanks. 
         [0019]    While the apparatus is on standby and the recycling process of the invention is inactive, pressure of grey water within the return portion  26  of the loop is maintained at the required value by the pressure of municipal water in conduit  40 - 1 . 
         [0020]    The recycling process of the invention begins when rinse water from the washing machine discharges into charging conduit  12  and flows to inlet valves  14 A,B. Valve  14 A being normally open allows the rinse water to flow into tank A while inlet valve  14 B being normally closed prevents the rinse water from entering the other tank B. When the level of rinse water in tank A reaches upper level switch  16 A, inlet valve  14 A closes and inlet valve  14 B opens to divert rinse water into tank B. 
         [0021]    When there is a demand for recycled rinse water by the washing machine by, for example, the opening of a valve in the machine to admit the recycled water, the water begins to flow through return or discharging conduit  26 . Flow switch  30  detects the flow and activates pump  32 . The flow switch also causes the normally open fresh water valve  44  to close thereby preventing municipal water from flowing into the conduit. At all times, check valves  34 ,  42  prevent rinse water from flowing in the wrong direction. The latter check valve also prevents municipal water from flowing backward through the pump and filling the two tanks A,B. 
         [0022]    When the rinse water in tank A falls to the level detected by the lower level switch  18 A, the switch causes outlet valve  24 A to close and outlet  24 B to open. The switch also causes purge valve  22 A at the bottom of the tank and spray valve  46 A at the top to both open. Municipal water then discharges through a spray nozzle  50 A into the interior walls of the tank to clean its walls. The cleaning water discharges through purge valve  22 A. As well, rinse water which collects beneath the lower level switch  18 A discharges at this time. Such rinse water is usually unsuitable for recycling since it may contain solid particles which settle into the lower portion of the tank. After a preselected time, purge valve  22 A and spray valve  46 A close. 
         [0023]    Between washing and rinsing cycles of the washing machine, when recycled rinse water is not required, flow switch  30  shuts off pump  32  and opens fresh water valve  44 . After a predetermined interval of time, if rinse water is not withdrawn from one tank, the purge valve at the bottom of the tank opens and all rinse water in the tank is purged in order to prevent stagnant rinse water from being recycled to the washing machine. 
         [0024]    As the operation of the washing machine progresses through its washing and rinsing cycles, rinse water is periodically discharged and subsequently consumed by the washing machine. As previously mentioned, the discharged rinse water flows first to tank A and then to tank B. As the rinse water in the tanks is required by the washing machine, rinse water from tank A is withdrawn first and, when the level of rinse water in that tank reaches the lower level switch, rinse water from tank B is then withdrawn until the level of rinse water in that tank reaches the lower level switch. 
         [0025]    The sequence of withdrawal of rinse water from the tanks is first from tank A and then from tank B. The subject process is accordingly a so-called “FIFO” sequence in which rinse water which first flows into one or the other of the tanks is the first rinse water to be withdrawn from that tank and recycled. A FIFO sequence is desirable because the less time that rinse water remains in a tank, the less time there is for bacteria to grow and precipitates to form in the water. 
         [0026]    The problem caused by old grey water that has been in the tank for a prolonged period of time in a conventional grey water system is accordingly not a problem in the subject process. Such old water, as previously discussed, is a source of bacteria but such water is either the first water withdrawn in the subject FIFO process or it is drained out of a tank each time that grey water has been withdrawn from the tank and before in-coming grey water is added to it. 
         [0027]    It will be understood, of course, that modifications can be made in the process and apparatus of the invention without departing from the scope and purview of the invention as described above and in the appended claims.