NL2012184C2 - MOBILE DEVICE FOR SUPPORTING FILLING WATER DISTRIBUTION SYSTEMS. - Google Patents

Description

P103904NL00

Title: Mobile device for supporting the filling of water distribution systems.

The invention relates to a mobile device for supporting the filling of water distribution systems, such as tap water installations in buildings, central heating circuits and other permanently installed circuits and / or branched systems of pipes for transporting water, and a method for filling water distribution systems.

The usual way to fill a tap water installation or central heating circuit in a building is to connect it to the public water supply. Air bubbles must be removed. For example, after the water circuit of a central heating system has been filled, it is often necessary to temporarily open bleed valves at a number of locations to prevent air problems in the system. In a drinking water installation, it is desirable to open all taps after connecting to the public water supply. Air present can lead to water hammer and dry-water heaters. Often, most of the filling work involves venting, and venting may also require an interruption of normal use of spaces such as prisons and laboratories.

Summary of the invention

It is an object to provide a device and method to simplify the filling of water distribution systems.

A Mobile device is provided for supporting the filling of water distribution systems, provided with - a water tank; - a coupling for coupling to a drain point of a water distribution system; - a pipe coupled between the coupling and the water tank - at least one valve in the pipe; - a vacuum pump connected to the top of the water tank. This makes it possible to fill a permanently installed water distribution system with a method with the steps of - temporarily connecting a vacuum pump to the water distribution system; - pumping the water distribution system vacuum using the vacuum pump via a pump pipeline; - shutting off the pump pipeline when the water distribution system is vacuumed and no water flows through the pump pipeline and then - supplying water to the network to the water distribution system.

Vacuum suction allows the water distribution system to be filled quickly without problems with large air bubbles and without the need for access to all valves of the water distribution system.

Short figure description

These and other aspects appear from the following description of exemplary embodiments with reference to the following drawings.

Figure 1 shows a device for supporting the filling of water distribution systems.

Figure 2 shows the device coupled to a water distribution system.

Detailed description of exemplary embodiments

Figure 1 shows a device for supporting the filling of water distribution systems. On a support 10, the device comprises a water tank 12 and a vacuum pump 14. The suction line of vacuum pump 14 is connected to the top of water tank 12. The device further comprises a coupling 15 for connection to a water distribution system (not shown), a first valve 16 , a sight glass 17 and a second valve 18. Coupling is coupled to the top of water tank 12 via a pump pipeline (otherwise briefly pipe) that is at least partially flexible and successively contains first valve 16, sight glass 17 and second valve 18. Sight glass 17 is a piece of pipe that makes it possible to see water in the pipe between coupling 15 and water tank 12, for example through a partly or completely transparent wall. The pipe may contain a vacuum hose, with internal reinforcement to keep the hose open during suction. The device further comprises a water level detector 19 in water tank 12, and a third valve 20. Third valve 20 is included in a line to a water drain 22 and water level detector 19 is coupled to a control input of third valve 20.

In use, the device is supplied to a permanently installed water distribution system when that water distribution system is to be filled with water. To that end, the device preferably comprises the platform 10 with wheels on that platform. The water distribution system can for instance be a central heating circuit or a tap water installation of a home.

Figure 2 shows the device 24 coupled to a tap water installation 26 of a building. As shown schematically, the tap water installation 26 may include a main pipe with branches, with a tap or utility device (not shown), such as a hot water generator, connected to each branch. The public water supply (not shown) is coupled via a main connection 28 and a main valve 28 of the tap water installation 26 to the tap water installation 26.

The coupling 15 of the device 24 of Figure 1 is coupled downstream of the main valve 28 of the tap water installation 26 to tap water installation 26. Use is herein preferably made of a connection to a drain tap (not shown) of the tap water installation 26. If a flexible vacuum hose (preferably reinforced) is used between tap water installation 26 and device 24, the sight glass 17 is preferably located at the end of the hose at the coupling 15 (between the first and second valve, which are not shown in Figure 2). The device 24 can, for example, be located in a car, truck or trailer outside the building with the installation, in which case the hose from a coil from this car, truck or trailer can be rolled out to the tap water installation 26 from a coil, or be arranged between the water tank 12 and the tap water installation 26.

The filling process for tap water installation 26 starts in a state in which the main valve 28 of the tap water installation 26 is closed. Vacuum pump 14 is switched on and first and second valve 16, 18 are opened. In this way, air is extracted from water tank 12 above any water in that water tank 12. As a result of the resulting underpressure, air is thus also extracted from tap water installation 26. If the filling takes place after the first delivery of tap water installation 26, then it only contains air.

If there is water in tap water installation 26 (for example when filling after work on an existing system), then this water is also extracted. If necessary, as an aid to this during suction, but before ending it, shut-off valves of tap water installation 26 are temporarily opened. This can be helpful, for example, to suck water from your bends. The extracted water collects in water tank 12. If water level detector 19 detects that the water level in water tank 12 exceeds a threshold, detector 19 opens third valve 20 to drain water. Detector 19 can for instance contain a float which is mechanically coupled to third valve 20. Alternatively, an electronic detector can be used that controls an electrical control of third valve 20.

Over time, when tap water installation 26 is evacuated (i.e., to a pressure at least ten or a hundred times lower than one atmosphere), first valve 16 is closed. For this time, any open valves at the ends of tap water installation 26 must also be closed.

The sight glass 17 can be used here to assess, prior to the decision to close first valve 16, whether water is no longer being sucked from tap water installation 26. The device is preferably also provided with a pressure meter to assess whether the pressure in tap water installation 26 has become sufficiently low. The pressure meter can be on the water tank 12. Instead, or in addition, the device may be provided with a pressure gauge coupled to gauge glass 17. This enables the person operating the device to judge on site whether the first valve 16 can be closed, even if the water tank 12 located elsewhere (for example outside the building in a vehicle). Second valve 18 can also be closed and vacuum pump 14 can be switched off. Sight glass 17 is now an internal vacuum.

The main valve 28 of the tap water installation 26 is then opened. Due to the vacuum in tap water installation 26, it becomes completely filled. After filling, there are no (large annoying) air bubbles present in the system. This happens within a few seconds thanks to the vacuum. After this time, second valve 18 is opened. Optionally, filling gauge glass 17 can be used here as a sign that tap water installation 26 is completely filled with water. The device 24 can now be disconnected from tap water installation 26, after shutting off the tap of the tap water installation 26, or other closure.

In a further embodiment, a non-return valve can be included between second valve 18 and water tank 12, in order to prevent air flow at excess pressure from water tank 12.

The circuit of a central heating installation or other water distribution system can be filled in a similar way, whereby use can be made of a temporary connection of the central heating installation or other water distribution system to the mains water installation. The device 24 can for instance be connected to this temporary connection via a T-piece.

Instead of a mobile device, a larger device can also be used in larger buildings in a service area where different water distribution systems such as the mains water installation and the central heating circuit come together. By incorporating the gauge glass at the end, the device can be operated on site.

Instead of sight glass 17, another detection facility can be included for detecting water.

Claims (9)

A mobile device for supporting the filling of water distribution systems, comprising: - a water tank; - a coupling for coupling to a drain point of a water distribution system; - a pipe coupled between the coupling and the water tank - at least one valve in the pipe; - a vacuum pump connected to the top of the water tank. A mobile device according to claim 1, provided with means for detecting water in the pipe. A mobile device according to claim 2, wherein the means for detecting water in the pipe are located at one end of the pipe at the coupling. A mobile device according to claim 2 or 3, wherein the means for detecting water in the conduit comprise a sight glass. A mobile device according to any one of the preceding claims, provided with a pressure gauge coupled to the pipe at the end of the pipe at the coupling. A mobile device according to any one of the preceding claims, provided with a T-piece in the pipe with a connection for connection to a water supply. A mobile device according to any one of the preceding claims, wherein the conduit comprises a flexible vacuum hose and a coil for unrolling the flexible hose. A mobile device according to any one of the preceding claims, provided with a further valve coupled between a bottom of the water vessel and water discharge, and means for detecting whether a water level in the water vessel exceeds a threshold, coupled to a control of the further valve. A method for filling a permanently installed water distribution system, wherein the method comprises the steps of - temporarily connecting a vacuum pump to the water distribution system; - pumping the water distribution system vacuum using the vacuum pump via a pump pipeline; - shutting off the pump pipeline when the water distribution system is vacuumed and no water flows through the pump pipeline and then - supplying water to the network to the water distribution system.