| WO/2010/143056 | DEVICES FOR TREATING, SENSING, OR OTHERWISE ACTING UPON FLUID |
| WO/1997/044537 | CENTRAL WATER-LOSS PREVENTION SYSTEM |
| WO/2001/040586 | BACKFLOW PREVENTION ASSEMBLY |
COLEMAN, Carl (35 Chaffinch Close, Surbiton, SURREY KT6 7PG, GB)
GARDNER, Paul (Unit 7 Camphill Industrial Estate, Camphill RoadWest Byfleet, SURREY KT14 6EW, GB)
TAPP, Brian (5 Kirby Close, Ewell, SURREY KT19 0PW, GB)
COLEMAN, Carl (35 Chaffinch Close, Surbiton, SURREY KT6 7PG, GB)
GARDNER, Paul (Unit 7 Camphill Industrial Estate, Camphill RoadWest Byfleet, SURREY KT14 6EW, GB)
TAPP, Brian (5 Kirby Close, Ewell, SURREY KT19 0PW, GB)
Claims:
1. An apparatus for increasing the flow rate of water supplied to a water delivery pipe system above the flow rate achieved using mains water alone comprising: a) a water inlet for connection to a mains water supply; b) a water outlet for connection to a water delivery pipe system; c) a first non return valve and a pressure limiting valve in series between the water inlet and the water outlet; and d) a loop for pressurising the water comprising: i) a loop inlet connected between the water inlet and first non return valve; ii) a loop outlet connected between the first non return valve and the pressure limiting valve; iii) a second non return valve connected in series to a pump, and an expansion vessel ; in use water at mains pressure enters the water inlet, the water is pressurised by the pump and a positive pressure develops across the pressure limiting valve, the pressurised water is then delivered to the water outlet at a flow rate which exceeds the flow rate achieved using the mains water supply pressure.
2. An apparatus as claimed in claim 1 wherein the first non return valve allows water to flow from the water inlet to the water outlet through the pressure limiting valve directly if the loop for pressurising the water fails.
3. An apparatus as claimed in claim 1 or claim 2 wherein a pressure sensor senses the pressure of the water in the expansion vessel and turns the pump on when the pressure falls below a first lower value and turns the pump off when the pressure reaches a second upper value.
4. An apparatus as claimed in claim 3 wherein the upper value is between 8 and 10 Bar.
5. An apparatus as claimed in claim 3 or claim 4 wherein the upper value is selected to deliver water to the outlet at a flow rate of more than 10 lit/min.
6. An apparatus as claimed in any one of claims 3 to 5 wherein the upper value is selected to deliver water to the outlet at a flow rate which exceeds the inlet flow rate.
7. An apparatus as claimed in claim 3, 4 or 5 wherein the lower value is 3.8 Bar
8. An apparatus as claimed in any one of claims 3 to 7 wherein the pressure sensor senses the pressure of the water downstream of the pump.
9. An apparatus as claimed in any preceding claim wherein an air vent is provided upstream of the pump for removing air to prevent cavitation in the pump.
10. An apparatus as claimed in any preceding claim wherein the pump is driven by a linear motor.
11. An apparatus as claimed in any preceding claim wherein the pump is a rotary vane pump.
12. An apparatus as claimed in any preceding claim wherein the loop for pressurising the water further comprises a pump temperature sensor and a pump controller to turn the pump off if the pump temperature rises above a pre-determined level.
13. An apparatus as claimed in any preceding claim wherein the water inlet, water outlet, first non return valve pressure limiting valve, and the loop for pressurising the water are connected by pipes formed in a common housing or manifold. |
Title: Apparatus to pressurise mains water supply
The present invention relates to an apparatus to pressurise mains water supply.
In an attempt to reduce the number of leaks some water suppliers have reduced the pressure of the mains water supply. New developments where the water is delivered in series with existing dwellings or businesses may cause the pressure of the mains water supply to be even lower. Accordingly the pressure and flow at which water is delivered to many end users is unacceptably low.
A need exists for a fail-safe means of simply, reliably and cost-effectively increasing the flow rate at which water reaches the end user. It is a further object of the invention to provide a means of evening out fluctuations in the mains pressure so that a reliable, consistent flow rate and pressure reaches the end user.
The invention relates to an apparatus for increasing the flow rate of water supplied to a water delivery pipe system above the flow rate achieved using mains water alone comprising: a) a water inlet for connection to a mains water supply; b) a water outlet for connection to a water delivery pipe system; c) a first non return valve and a pressure limiting valve in series between the water inlet and the water outlet; and
d) a loop for pressurising the water comprising: i) a loop inlet connected between the water inlet and first non return valve; ii) a loop outlet connected between the first non return valve and the pressure limiting valve; iii) a second non return valve connected in series to a pump, and an expansion vessel ; in use water at mains pressure enters the water inlet, the water is pressurised by the pump and a positive pressure develops across the pressure limiting valve, the pressurised water is then delivered to the water outlet at a flow rate which exceeds the flow rate achieved using the mains water supply pressure.
In a second aspect the invention relates to apparatus wherein the first non return valve allows water to flow from the water inlet to the water outlet through the pressure limiting valve directly if the loop for pressurising the water fails.
In a further aspect the invention relates to apparatus wherein a pressure sensor senses the pressure of the water in the expansion vessel and turns the pump on when the pressure falls below a first lower value and turns the pump off when the pressure reaches a second upper value.
In a further aspect the invention relates to apparatus wherein the upper value is between 8 and 10 Bar.
In a further aspect the invention relates to apparatus wherein the upper value is selected to deliver water to the outlet at a flow rate of more than 10 lit/min.
In a fUrther aspect the invention relates to apparatus wherein the upper value is selected to deliver water to the outlet at a flow rate which exceeds the inlet flow rate.
In a further aspect the invention relates to apparatus wherein the lower value is 3.8 Bar
In a further aspect the invention relates to apparatus wherein the pressure sensor senses the pressure of the water downstream of the pump.
In a further aspect the invention relates to apparatus wherein an air vent is provided upstream of the pump for removing air to prevent cavitation in the pump.
In a farther aspect the invention relates to apparatus wherein the pump is driven by a linear motor.
In a further aspect the invention relates to apparatus wherein the pump is a rotary vane pump.
In a further aspect the invention relates to apparatus wherein the loop for pressurising the water further comprises a pump temperature sensor and a pump controller to turn the pump off if the pump temperature rises above a pre-determined level.
In a further aspect the invention relates to apparatus wherein the water inlet, water outlet, first non return valve pressure limiting valve, and the loop for pressurising the water are connected by pipes formed in a common housing or manifold.
Description of the Drawings
An embodiment of the invention will now be described with reference to the accompanying drawings in which:
Figure 1 shows a schematic circuit diagram and
Figure 2 shows a cross section view of a manifold.
Referring to Figure 1 there is shown a schematic circuit of an apparatus 1 to pressurise mains water and to supply it at a consistent flow rate which exceeds that provided by the mains supply to a water delivery pipe system, e.g. the cold mains water pipe system in a building.
A water inlet 2 is provided for connection to a mains water supply with isolation valve 2A, as is a water outlet 3 for connection to a water delivery pipe system with an isolation valve 3A.
A first non return valve 4 and pressure limiting valve 5 are provided in series between the water inlet 2 and the water outlet 3.
A loop 10 for pressurising the water has a loop inlet 1OA connected between the water inlet 2 and first non return valve 4, and a loop outlet 1OB connected between the first non return valve 4 and the pressure limiting valve 5. The loop 10 has a second non return valve 11 connected in series to a pressurising pump 12, with isolation valves 12A,12B being provided for the pump 12. An automatic air vent 13 is provided upstream of the pump 12 and a pressure sensor 14 is provided downstream of the pump 12.
One or more expansion vessel 15 is connected on a branch pipe 15 A between the pressuring pump 12 and pressure limiting valve 5. An isolation valve 15B is provided in branch pipe 15A.
A pump controller 16 is connected to pressure sensor 14 and pump 12.
In use mains water enters via inlet 2 and isolation valve 2A. Water passes through second non return valve 11 to pump 12 which pressurises the water from the available mains water pressure to around 8 Bar and fills and pressurises the expansion vessel 15 to maintain a positive pressure across the pressure limiting valve 5 at a pressure above the mains water supply pressure. Any air in the water is removed by the automatic air vent 13 to prevent cavitation in pump 12.
Pressure sensor 14 senses the water pressure downstream of the pump and, with controller 16, turns the pump 12 on when the pressure falls below a first lower value (e.g. around 3.8 Bar)
which is the desired service pressure, and turns the pump off when the pressure exceeds a second upper value (e.g. around 8-10 Bar) which is the desired maximum pressure.
The pressure limiting valve controls the flow rate of water which is delivered to the water delivery pipe system. The outlet pressure, ie the pressure of water which is delivered to the water delivery pipe system, is lower than the upper value.
The invention ensures that a consistent flow rate of water which exceeds that available from the mains is delivered to the water delivery pipe system.
Preferably the pressure in the expansion vessel is more than IBar and delivers water to the water delivery pipe system at a flow rate of more thanlOlit/min. More preferably the pressure in the expansion vessel is more than 3.5Bar and delivers water to the delivery pipe system at flow rates of between 36 and 300 lit/min depending on the application and the size of the delivery pipe.
More preferably the pressure in the expansion vessel is between 7.8 and 8 Bar which compresses the air in the expansion vessel and increases the volume of water which can be stored in the expansion vessel to between 70-90% of the expansion vessel's volume.
Preferably the pump is a peripheral pump or more preferably a rotary vane pump in which all parts are floating and self lubricating.
Preferably the pump motor is a conventional electric motor or more preferably a linear motor which has no moving parts as they are quiet and very efficient.
In an especially preferred embodiment the pump is a rotary vane pump and the motor is a linear motor.
In the event that the pump 12 or expansion vessel 15 should fail, the first non return valve 4 allows water to flow directly from the water inlet to the water outlet through the first pressure limiting valve 5 to the water delivery pipe system, albeit only at mains water pressure. Thus providing a fail-safe system.
It will be appreciated that, when pressure in expansion vessel 15 is higher than mains pressure, first non return valve 4 prevents flow of pressurised water back to the mains supply.
A pump temperature sensor 17 is connected to the controller 16 to turn off the pump if the pump temperature rises above a predetermined level. This might occur in the event of no water flowing through the pump, e.g. due to a closed valve or there being no water available.
In an alternative embodiment a pressure sensor which is able to detect pressures below zero is provided on the inlet side of the pump which turns the pump off if the pressure falls below a preset level to protect the pump in the event of a failure in the water inlet.
Preferably the system automatically resets once water pressure is restored.
In an alternative embodiment a mechanical sensor is provided which turns the pump off if the pressure exceeds a preset level to protect the system from becoming over-pressurised.
If any one of the temperature or pressure sensors is activated a manual re-setting operation may be required.
A visual pressure gauge 18 is provided between the first non return valve 4 and pressure limiting valve 5. This may also be a digital device displayed on controller 16.
The digital device may also have means to indicate when one or more of the following
a) System on and functioning b) The pump is running c) Manual Reset required eg. because of overpressure failure
Preferably the water inlet 2, water outlet 3, first non return valve 4 and pressure limiting valve 5, and the bypass loop for pressurising the water comprising the second non return valve 11 and the pressurising pump 12, and an expansion vessel 15 are connected by pipes formed in a common housing or manifold. A schematic cross-section of such a manifold is shown in Figure
2.
In Figure 2 a manifold is formed from three joined blocks 2OA, 2OB, 20C. The blocks create a network of pipes with apertures connected to the various components as shown. Water flow direction is shown by the dotted arrows. First and second non return valves 4, and 11 may be integrated with the pipe work as shown. The air vent 13, pressure sensor 14 and pressure gauge 18, and pressure limiting valve 5 may be screwed into threaded apertures on the block 2OA, 20B, 2OC.
It is envisaged that a manifold would be sold containing the first and second non return valves 4,11, the air vent 13, the pressure sensor 14, the pressure gauge 18, and the pressure limiting valve 5. The end user would connect the pump and expansion vessel to the manifold at the point of installation. More commonly the pump, controller and manifold arrangement are sold as a single pre-assembled unit, optionally incorporated in a sound insulated housing, for the user to connect to the inlet, outlet and expansion vessel or vessels.
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