DE10213612C1 - Keeping reduced pressure drinking- or service water systems clean, further reduces pressure and monitors for sharp drop, on which pressure is increased - Google Patents

Abstract

In reduced pressure drinking or service water systems, system pressure (p1) is further reduced to an even lower pressure (p2), which is monitored. Should it (p2) fall sharply, the water pressure is raised. The pressure is raised to system pressure (p1). The pressure reducer (22) is opened to increase pressure, and a pressure instrument (34) monitoring system pressure (p2) operates the pressure reducer (22) through a controller. Operation is further detailed, based on the foregoing principles. An Independent claim is included for the corresponding drinking- or service water supply system.

Description

The invention relates to a method for keeping a Drinking water or process water system, especially for Reduction of limestone, waterstone and / or Corrosion. With known drinking water or Industrial water systems is the water pressure of the waterworks water supplied from a high pressure, which is regularly in the Range between 6 and 8 bar, on a the drinking water or system water adapted to the domestic water system, which, for example in the case of residential buildings, regularly in the range of 4 up to 5 bar. This is still quite high system pressure  required to be able to guarantee according to DIN 1988 that at all water tapping points one Domestic water installation always and at the same time enough water can be removed. However, providing one leads such system pressure on the one hand to germ, water stone and Corrosion within the system and on the other hand too a heavy load on the system.

DE 37 13 427 C1 describes a method for cleaning Water systems become known, in which the system pressure of 4 up to 5 bar by disconnecting from the central supply and simultaneous opening of the riser system suddenly is broken down. Such a relaxation of the water pressure in limescale forms in the riser system, Water stone and / or corrosion.

The invention is based, another object Process for keeping a drinking water or To propose the domestic water system. In addition, a corresponding drinking water or process water system and an associated control unit be proposed. The formation of limestone, Water stone and / or corrosion can be counteracted. A such education should not be possible as far as possible his. It is also said to wear the system be counteracted.

This object is achieved by a method in which the System pressure is further reduced by means of a pressure reducer.  

The system pressure, the normally at 4.5 bar, further reduced to one Value that is significantly below this value. By a Lowering the water pressure to the lower System depression is the formation of limestone, water stone and / or corrosion within the piping system counteracted. In order to guarantee according to DIN 1988, that at all water tapping points always and at the same time enough water can be removed, is too strong Drop in system low pressure the water pressure increases especially the system pressure of 4 to 5 bar.

In practice it has been shown that almost never water is taken from all water tapping points at the same time becomes. Especially in larger buildings, such as office buildings, Hotels, schools or residential buildings are at peak times Experience has shown that a maximum of 20% of all tapping points used at the same time. The high resulting from DIN 1988 Pressure is therefore not required. Rather, it leads to compressive stagnant water, which consequently leads to germ, Water stone and corrosion formation.  

In an advantageous embodiment of the invention, the Water pressure increased by opening a pressure reducer, the pressure gauge via a control unit the pressure reducer controls. Consequently, the system pressure drops in the Riser system due to increased water withdrawal strongly, this pressure drop is reduced by opening the Pressure reducer compensated.

Another, particularly preferred embodiment of the Invention is characterized in that the Water pressure by opening one in one Pressure reducer arranged around the wiring harness Pressure control valve is increased, the pressure gauge over a Control unit controls the pressure control valve. Such one Process has the advantage that the pressure reducer on one constant value can be set. The increase in Water pressure then occurs when the system low pressure drops exclusively via the pressure control valve, which runs parallel to the Pressure reducer in a bypass that bypasses the pressure reducer is arranged. The advantage of this is that, for example, at Failure of the pressure meter or the pressure control valve via the Pressure reducer the riser system is supplied.

Advantageously, the water pressure in the Riser system when falling below a threshold elevated. The pressure reducer or the pressure control valve is consequently only operated when the system low pressure Falls below the threshold.  

Advantageously, the water pressure in the Riser system when the pressure drops below 2 bar, and especially of 1.5 or 1 bar. Depending on supplying riser system and after using the Withdrawal points can correspond to the threshold can be set. With normal use, a value of approx. 1.5 bar advantageous. Many tapping points are common used at the same time, the threshold can also be higher, for example in the range of 2 bar.

The water pressure is then advantageously returned to the. System low pressure is reduced when the water pressure returns Threshold exceeded. It is also conceivable that after Elapse of a predeterminable time period, approx. 10 up to 20 min. and especially 15 min. the water pressure again is reduced to the system low pressure. After one Period of time is expected to be most of the previous tapping points that are open at the same time are closed again.

According to the invention it can be provided that the water pressure is on that or shortly after the pressure reducer and / or the Pressure control valve is measured. This can be an accurate Coordination between the water pressure and the actuation of the Pressure reducer or the pressure control valve.

It is also advantageous if the water pressure shortly after Pressure reducer is measured and from the measured water pressure  the water pressure at a tapping point, especially at the highest elevation point, determined and as authoritative Water pressure is used. This has the advantage that So much pressure is always provided that at the Sufficient water can be drawn from the tapping point.

According to the invention it is also conceivable that the water pressure is short in front of a tapping point, especially just before the top located sampling point, is measured. This also leads to that sufficient at the appropriate tapping point Water pressure is present.

Another embodiment of the invention provides that Water before the pressure reducer and / or the pressure control valve cleaned, in particular filtered. This has the advantage that cleaning or filtering is carried out under high pressure.

The task mentioned is also through a drinking water or Domestic hot water system and solved by a control unit that is used to carry out the method according to the invention is suitable.

Such a system comprises in particular one Supply line downstream pressure reducer for lowering or Increase in water pressure in a riser system and a pressure gauge downstream of the pressure reducer, which with a control unit for controlling the pressure reducer is. As a result, if there is a pressure drop in the riser system opened somewhat via the pressure reducer control unit, so that  the pressure is increased. Upon completion of the pressure drop, i.e. H. if pressure increases or after a certain time interval, the control unit closes the pressure reducer by a certain amount Value, the water pressure is thereby reduced.

Another system according to the invention comprises one Supply line downstream pressure reducer for lowering or Increasing the water pressure in a riser system, one the pressure reducer bypassing line, in which a Pressure control valve is arranged, and one of the pressure reducer and / or the pressure control valve downstream of the pressure gauge, the with a control unit for controlling the pressure control valve connected is. In this embodiment of the invention depending on the water pressure in the riser system the pressure control valve is actuated. If the water pressure drops, so the pressure control valve is opened so that the Sufficient water can be drawn from the removal points can. The pressure control valve preferably has two Switch positions on, "open" and "closed". In the In the basic position, the pressure control valve is closed in the System consequently there is system low pressure. If the pressure drops stak ab, the pressure control valve is opened, the water pressure increases to the conventional system pressure of 4 to 5 bar at closed water tapping points.

According to the invention, the pressure control valve can advantageously be used as Motor valve, especially designed as a motor ball valve his. Such a valve can be opened quickly if necessary,  so that an optimal withdrawal of water from the Water tapping points is guaranteed.

Another advantageous system is characterized by that between the pressure reducer and the connection in which the branched line runs into the riser system, a controllable three-way valve is provided, which for temporarily closing the one in front of the three-way valve Pipe system with simultaneous dismantling and if necessary slight discharge of water pressure in the Riser system is suitable. This ensures that the system is temporarily depressurized, which one Formation of limestone, water stone, germs or corrosion counteracts.

A system according to the invention can also provide that the Pressure reducer and / or the pressure control valve one Water purification system, in particular a water filter system, is connected upstream. This also helps to keep the Systems at.

Further advantageous refinements and details of Invention can be found in the following description in which the invention with reference to that shown in the drawing Embodiment is described and explained in more detail.

The drawing shows:  

Fig. 1 shows a first embodiment of a drinking water system of the invention; and

Fig. 2 shows a second embodiment of a drinking water system according to the invention.

In FIG. 1, a drinking water or industrial water system 10 is illustrated. Water is supplied to the drinking water system 10 via a supply line 12 . The water in the supply line has a high pressure p ₀ of 6 to 8 bar on the waterworks side. The feed line 12 opens into a valve 14 , which is immediately followed by a water meter 16 and another valve 18 . The valves 16 , 18 throttle the high water pressure p ₀ to a conventional system pressure p ₁ of approximately 4.5 bar. A water filter system 20 is provided just behind the valve 18 .

After the water filter system 20, there is a pressure reducer 22 in the main line string. The pressure reducer 22 throttles the system pressure p _{1 down} to a low system pressure p ₂ . The system low pressure p ₂ is advantageously chosen such that a pressure of approximately 1.5 bar is present in the area of a tapping point 24 when the tapping points are closed. The removal point 24 is provided at a free end of a riser 26.1 of a riser system 26 .

In FIG. 1, a pressure reducer 22 of prompt wiring harness 28 is shown that is branched immediately before the pressure reducing valve 22 and flows back into the riser pipe system 26 after the pressure reducer 22, namely before the risers 26.1 branch off to 26.4. The risers 26.1 , 26.2 , 26.3 and 26.4 lead to further water tapping points , not shown. The risers 26.1 to 26.4 can be cold water or hot water pipe systems.

In the cable harness 26, a pressure regulating valve 30 is provided in the form of a motorized ball valve. The pressure control valve 30 is controlled by a control device 32 , which can be formed, for example, directly on the pressure control valve 30 or as a separate control device. The control takes place as a function of the pressure in the riser 26 , which is measured via a pressure meter 34 . The pressure meter 34 is connected to the control unit 22 or the pressure control valve 30 via the electrical line 36 .

According to the invention, the system low pressure p ₂ in the riser system 26 is kept very low. This keeps limestone, waterstone, germs and corrosion to a minimum. Wear of the system is also counteracted.

If the case occurs that water is drawn from almost all water tapping points at the same time, the system low pressure p ₂ falls below a threshold value p _s . This is communicated to the control unit 32 via the pressure meter 34 . The control unit 32 then opens the pressure regulating valve 30 , so that water can flow into the riser system 26 via the line 28 . The water pressure therefore increases. If the water tapping points are closed, the water pressure rises to the system pressure p ₁ due to the open pressure control valve 30 . This is reported to the control unit 32 via the pressure meter 34 , which then closes the pressure control valve 30 again. The system pressure p ₁ is consequently reduced to its original low value, the system low pressure p ₂ . The threshold value p _s is advantageously a value in the range of 1.5 bar at or shortly before a tapping point, with the tapping points closed.

According to the invention, it is also conceivable that the pressure control valve 30 remains open for a certain period of time, for example 15 minutes, and is then closed automatically, so that the pressure on the system low pressure lowers.

For example, the pressure at the tapping points can be calculated from the pressure measured with the pressure meter 34 . On the other hand, it is conceivable to provide sensors directly at the tapping points, which communicate the current pressure to the control unit 32 . The communication can take place without a line, for example by ultrasound or radio.

The main water line provides a controllable three-way valve 38 after the pressure reducer 22 , which is provided for temporarily closing the line system located in front of the three-way valve while simultaneously reducing and possibly slightly emptying the water pressure in the riser system 26 . The emptying takes place in a casting 40 . Such a short-term pressure release also greatly reduces the formation of limestone, water stone, germs or corrosion.

The system 50 according to the invention according to FIG. 2 largely corresponds to the system according to FIG. 1. Corresponding components are provided with corresponding reference numerals.

Different from FIG. 1 is that there is no pipeline that bypasses the pressure reducer 22 . Rather, the pressure gauge 34 is connected to a control unit 54 which controls a motor 52 . The motor 52 actuates the pressure reducer 22 . Basically, the pressure reducer 22 is set such that system low pressure p ₂ prevails in the riser system. If the pressure in the riser system 22 drops, this is communicated to the control unit 54 via the pressure meter 34 . The pressure reducer 22 is then opened via the motor 52 until sufficient pressure, in particular system pressure p _1, prevails in the line system 26 . If the pressure increases again due to the closing of tapping points, the motor 52 closes the pressure reducer 34 accordingly until system low pressure p ₂ prevails again.

The pressure reducer 22 can have, for example, 3 adjustable positions, namely “closed”, “open low system pressure” and “open system pressure”. It is also conceivable that the regulation takes place continuously.

The two drinking water systems 10 , 50 shown and described in FIGS. 1 and 2 have the advantage that there is basically a low water pressure in the riser system 26 or in the individual risers, namely system low pressure p ₂ . Only when there is actually a need for several water tapping points at the same time, the water pressure is automatically increased to system pressure p ₁ . Because the water pressure is at a relatively low level most of the time, wear of the piping system is counteracted. It also counteracts the formation of limestone, limestone, germs and corrosion. The lifespan of the drinking water system 10 , 50 is increased, the system 10 , 50 is also kept clean.

All in the description, the following claims and the Features shown can be drawn individually as well also in any combination with each other be essential to the invention.

Claims (18)

1. A method for keeping a drinking water or service water system ( 10 , 50 ) clean, in particular for reducing limestone, water stone, germ and / or corrosion formation, the water pressure in the riser system of a service water or downstream of a supply line (p ₀ ) Drinking water system is reduced to a system pressure (p ₁ ), characterized in that the system pressure (p ₁ ) is further reduced to a system low pressure (p ₂ ), that the system low pressure (p ₂ ) is monitored and that if the system low pressure drops excessively (p ₂ ) the water pressure is increased. 2. The method according to claim 1, characterized in that the water pressure is increased to the system pressure (p ₁ ). 3. The method according to claim 1 or 2, characterized in that the water pressure is increased by opening a pressure reducer ( 22 ) which lowers the system pressure (p ₁ ) to the system low pressure (p ₂ ), a pressure gauge ( 34 ) being monitors the system low pressure (p ₂ ), controls the pressure reducer ( 22 ) via a control unit ( 54 ). 4. The method according to claim 1 or 2, characterized in that the water pressure by opening a pressure regulator valve ( 28 ) arranged in a pressure reducer ( 22 ) which lowers the system pressure (p ₁ ) to the system low pressure (p ₂ ). 30 ) is increased, a pressure meter ( 34 ), which monitors the system low pressure (p ₂ ), controls the pressure control valve ( 30 ). 5. The method according to any one of the preceding claims, characterized in that the water pressure is increased when the temperature falls below a threshold value (p _s ). 6. The method according to any one of the preceding claims, characterized in that the water pressure at Falling below 2 bar, and in particular 1.5 or 1 bar, is increased. 7. The method according to any one of the preceding claims, characterized in that the water pressure is then reduced to the system low pressure (p ₂ ) when the water pressure exceeds a threshold value (p _s ) or when a period of time has elapsed. 8. The method according to any one of claims 3 or 4, characterized in that the water pressure at or shortly after the pressure reducer ( 22 ) and / or the pressure control valve ( 30 ) is measured. 9. The method according to any one of claims 3 or 4, characterized in that the water pressure is measured shortly after the pressure reducer ( 22 ), and from the measured water pressure, the water pressure at a tapping point ( 24 ), in particular at the highest tapping point, determined and is used as the decisive water pressure. 10. The method according to any one of the preceding claims, characterized in that the water pressure is measured shortly before a tapping point ( 24 ), in particular shortly before the highest tapping point. 11. The method according to any one of the preceding claims, characterized in that the water in front of the pressure reducer ( 22 ) and / or the pressure control valve ( 30 ) is cleaned, in particular filtered. 12. drinking water or service water system ( 10 , 50 ) for keeping a drinking water or service water system ( 10 , 50 ) clean, in particular for reducing limestone, water stone, germ and / or corrosion formation, with at least one pressure reducer ( 22 ) for lowering the water pressure in the riser system of the process water or drinking water system downstream of a supply line (p ₀ ) to a system low pressure (p ₂ ), with a pressure gauge for monitoring the system low pressure (p ₂ ), the water pressure if the system low pressure drops too much (p ₂ ) is increased. 13. System ( 50 ) according to claim 12, characterized in that the pressure reducer ( 22 ) is suitable for lowering or increasing the water pressure and that the pressure gauge ( 34 ) with a control device ( 54 ) for controlling the pressure reducer ( 22 ), or one the pressure reducer ( 22 ) actuating electric motor ( 52 ) is connected. That a pressure reducer (22) of prompt line train (28), in which a pressure regulating valve (30) is arranged, is provided 14. The system of claim 12 or 13, characterized and that the pressure reducer (22) and / or the pressure regulating valve ( 30 ) downstream pressure meter ( 34 ) is connected to a control unit ( 32 ) for controlling the pressure control valve ( 30 ). 15. System ( 10 ) according to claim 14, characterized in that the pressure control valve ( 30 ) is designed as an engine valve. 16. System ( 10 , 50 ) according to claim 14 or 15, characterized in that a controllable three-way valve ( 38 ) between the pressure reducer ( 22 ) and the connection in which the branched line branch ( 28 ) opens into the riser system ( 26 ). It is provided that the line system in front of the three-way valve ( 38 ) is temporarily closed while simultaneously reducing and possibly slightly emptying the water pressure in the riser system ( 26 ). 17. System ( 10 , 50 ) according to one of claims 12 to 16, characterized in that the pressure reducer ( 22 ) and / or the pressure control valve ( 30 ) is preceded by a water purification system ( 20 ), in particular a water filter system. 18. Control device ( 32 , 54 ) for use in a method according to one of claims 1 to 11, characterized in that the control device ( 32 , 54 ) connections to a pressure gauge ( 34 ) and a pressure control valve ( 30 ) or a pressure reducer ( 22 ) or a motor ( 52 ) actuating the pressure reducer ( 22 ).