FR2953536A1 - METHOD AND DEVICE FOR CONNECTING TO A WATER DISTRIBUTION NETWORK - Google Patents

Abstract

A method of connection to a water distribution network, according to which: a tap (B1) is placed on a pipe (A) of the network; a pipe (G) connecting the socket to the installation of the user, the pipe being equipped with a consumption meter (H), and a closing / opening means (C) of the pipe upstream of the meter; downstream of the outlet (B1) is provided a closure means (RCD) capable of closing automatically when a limit value of flow is crossed either voluntarily or on default, and suitable for being open or closed by a remote control so that a connection keyed mouth is no longer necessary.

Description

METHOD AND DEVICE FOR CONNECTING TO A WATER DISTRIBUTION NETWORK

The invention relates to a method of connection to a water distribution network, of the type of those in which is set up: - a tap on a pipe network; a pipe connecting the socket to the user's installation, this pipe being able to be equipped with a consumption meter, and a closing / opening means for the pipe upstream of the meter.

Currently, the connection to the water network is carried out as illustrated in FIG. 1 of the accompanying drawings. A trench is dug in the ground to clear a driving zone A of the water network and then: a BI plug on the pipe is made using a grip collar B; - A tap C is installed immediately downstream of the plug; a kind of box D, called a tabernacle, is disposed above the tap C to cap it; a vertical elongated tube E extends from the tabernacle D towards the surface of the floor, in particular the floor; - Keyed mouth F is installed at the upper end of the elongate tube E, the upper part of the mouth F flush with the ground surface, and being provided with a lid; a duct G connects the duct A, from the outlet, to the user's installation; - An H meter, or counting system, is installed on the pipe G downstream of the tap C, to measure the consumption of the user. A non-return valve, often accompanied by an upstream trap and a downstream trap, prevents any return of water from the user to the network. The trench, or excavation, is then closed, and the connection reveals on the surface that the closure plate of the mouth F. It remains possible with an operating key I, after opening the mouth F , open or close the valve C which is at a certain depth below the surface of the ground.

In case of rupture of the pipe G, or significant leakage to the user, water losses and damage generated will be stopped only after closing tap C, if the incident is detected.

The consequences can be unfortunate, including: significant water loss, subsidence of the roadway, subsidence in the property of the user, flood counting, infiltration, and other disadvantages. In addition, the installation and maintenance of the elongated tube device E and the keyed mouth are relatively expensive.

The object of the invention is, above all, to provide a connection method that can be opened or closed remotely, which provides better protection in the event of breakage of the connection pipe, or significant leakage to the user, and which is of a simpler implementation.

According to the invention, the method of branching to a distribution network, of the kind defined above, is characterized in that it is put in place, downstream of the socket, a closing means adapted to close automatically when a limit value of flow is crossed, either voluntarily or on default, and able to be opened by a remote control so that a keyed mouth of connection is no longer necessary. Closing of the shut-off means can be caused by creating an overflow downstream of the tap, by sudden opening of a tap, after partial emptying of the user's installation.

To ensure the opening of the closure means when it has closed, a back pressure is exerted downstream of the closure means. Advantageously, a hydraulic or pneumatic counter-pressure is exerted, in particular by means of a cylinder-piston assembly momentarily connected to the pipe.

It is possible to provide, near the surface of the ground, a means of locating the receptacle located at depth, in particular when the keyed mouth is eliminated.

The invention also relates to a connection device to a water distribution network comprising: a tap on a pipe of the network; a pipe connecting the socket to the user's installation, this pipe being able to be equipped with a meter; and a means for closing / opening the pipe upstream of the meter, this device being characterized in that it comprises, downstream of the tap, a shut-off means able to close automatically when a limiting flow value is crossed, either voluntarily or on default, and clean to be opened by a remote control, so that a connection keyed mouth is no longer necessary.

Advantageously, the closure means is provided so that its opening is controlled remotely by an overpressure, particularly hydraulic or pneumatic. Means for exerting back pressure downstream of the sealing means is provided. This means for exerting a back pressure may comprise a piston-cylinder assembly suitable for being momentarily connected to the pipe. The shutter means may be provided to allow a minimum flow rate to flow through the closed position.

The closure means may comprise a valve biased by an elastic means at the opening and by the flow of water at closure. The closure means is designed to be mechanically unlocked remotely, and it is advantageously made of a material relatively easy to destroy with the aid of a ferret introduced into the pipe in the event of irreversible blockage of the sealing means. closed position. The sealing means may comprise a non-return valve.

The invention consists, apart from the arrangements set forth above, of a number of other arrangements which will be more explicitly discussed hereinafter with regard to exemplary embodiments described with reference to the accompanying drawings, but which do not are in no way limiting. On these drawings:

Fig. 1 is a vertical schematic section of a branch according to the state of the art.

Fig. 2 is a schematic vertical section of a branch according to the invention.

Fig. 3 is a partial diametral section, on a larger scale, of an example of sealing means according to the invention in the case of a new branch.

Fig. 4 is a diametral section in the case of an existing branch.

Fig. 5 is a section, similar to FIG. 3 or FIG. 4, of a variant of the closure means represented partially.

Fig. 6 is another variant of the closure means.

Fig. 7 is a diagram illustrating the remote control of the opening of the closure means which has closed, and

Fig. 8 is a diagram illustrating the use of a hose (ferret) for setting up a means for closing, unlocking or destroying a closure means blocked in the closed position.

Referring to Fig. 2, it appears that, for the connection of a user, a plug BI is provided on line A with the aid of a plug collar B as in the case of FIG. 1, with a pipe G connecting the pipe A to the installation of the user. A tap C is a means of closing / opening the line G upstream of the meter H.

According to the invention, a closure means RCD is placed downstream of the plug BI and is able to close automatically when a limit value of flow is crossed in the direction going from the pipe A to the installation. of the user. The opening of the shutter means RCD can be controlled remotely so that the keyed mouth F and the elongate tube E are no longer needed.

According to the example of FIG. 2, after digging the trench for setting the catch collar B and the pipe G, the entire trench was closed without a keyed mouth F with tabernacle D and elongated tube E being set in place. To locate, at the surface, the location of the BI socket on the pipe A, can be embedded in the ground or in the road mark 1, in particular formed by an easily detectable plate, preferably metallic and magnetic.

A valve 2 before the meter is generally provided upstream of the meter H while a valve 3 after the meter can be provided downstream of the meter H. The valves 2 and 3 are generally of the "full-flow valve" or ball valve type. , that is to say in the open position the valve provides a passage whose section is substantially the same as that of the pipe.

A non-return valve 4 is furthermore provided in the user's installation, for example downstream of the tap 2 and the meter H. A trap 5a is also provided upstream of the valve 4 and a trap 5b downstream of the valve. 4. The traps 5a and 5b can be integrated in the non-return valve 4.

Case of a new connection The RCD shutter means is installed when connecting to the network.

Preferably, it is positioned at a cut of the pipe G, as shown in Figure 3, near the shutter C; for this, it is introduced at the end of the pipe, then it is blocked by a support flange K, against the end of the pipe G with a sleeve M screwed on a threaded bushing N. The sleeve M has a rim ml with frustoconical inner surface surrounding the pipe G. The stack of an O-ring J, a washer R and a split toothed ring U can be clamped between the end of the sleeve N and the rim ml. The ring U has a frustoconical surface conjugate with that of the rim ml, so that the axial clamping causes a radial clamping of the pipe G by the ring U.

The shutter means RCD may also be installed, as shown in Figure 4 - upstream, in, or downstream of the tap or shutter C support; in the pipe G, along this pipe; - or at the counting level, in which case it acts mainly as overhead protection.

The installation of the RCD at the counting level can be carried out: either upstream or in, or downstream of the tap 2 before the meter; - either upstream or in, or downstream of the valve 3 after counter 3, if there is one; - either upstream, or in the non-return valve 4.

A hose or ferret 6 (FIG. 8) can be used for setting up the RCD as explained in more detail later for an existing connection.

Case of an Existing Connection The RCD shutter means may also be installed in an existing connection such as that of FIG. 1. In this case, after closure of the tap C, the shutter means RCD is set up from the meter H, which has been disconnected to allow access to the inside of the pipe G and to introduce the shutter means RCD.

The shutter means RCD can be installed: io - downstream of the support shutter C of FIG. 1, - or along the G line.

The shutter means RCD can also be installed at the counting level H, acting in this case especially as overhead protection. The shutter means RCD is then installed: either upstream or in, or downstream of the valve 2 before the meter; - upstream or in, or downstream of the tap after counter 3, if there is one; either upstream or in the non-return valve 4. In the case of an existing connection, the establishment of the closure means RCD, especially when it must be introduced into the pipe G, is ensured. using a hose 6 (FIG 8) or "ferret" which is introduced at a point 7 of the pipe G, for example after disconnecting the counter H to be able to access the inside of the pipe. The shutter means RCD is installed at the end of the ferret 6, which is engaged in the pipe over a length corresponding to the desired position for the shutter means RCD. The ferret 6 can then be removed by leaving in place the closure means RCD which has gripping claws to the pipe, as explained in more detail with reference to FIG.

It is also possible to install the shutter means RCD without the use of a hose, either at the level of the counting H, or at a connection, after disconnecting meter or fitting to access the interior of the door. pipe.

After setting up the shutter means RCD, in the case of an existing branch, the key-lock F can be suppressed. The extension tube E will, however, be retained and a metal cover will be placed on the upper end of the elongate tube E, which will facilitate its detection and prevent its filling.

An example of self-closing closure means in case of overhead is shown for example by FR 2 916 511.

Fig. 4 illustrates an embodiment of the shutter means RCD with automatic closure in case of overhead. The closure means RCD comprises a cylindrical body 8, in particular of plastic, in which is housed a valve 9 whose rod 10 is guided in axial sliding by a sleeve 11 carried by radial arms 12, for example three in number distributed at 120 °, integral with the body 8. A sufficient passage exists between the arms 12 for the flow of liquid from left to right according to FIG. 3, as indicated by the arrow 13.

The valve 9 is urged to open by a spring 14 which is supported on one side against the valve, and on the other against a stop 15 connected to the cylindrical body 8. Downstream of the valve 9, in the direction of the arrow 13 is provided a sealing seat 16, in particular consisting of an O-ring held relative to the body 8.

A seal 18 is provided at the periphery of the body 8, downstream. The seal 18 is adapted to be sealingly applied against the inner wall of the pipe G while permitting the sliding of the closure means RCD in this pipe. The body 8 is further equipped, on its periphery, with claws 17, on the side of its upstream end, adapted to hold the closure means RCD in the pipe G against sliding in the direction of the 13, while allowing the sliding in the opposite direction for the introduction of the shutter means RCD in the G pipe.

The spring 14 is calibrated so as to keep the valve 9 open and to allow the passage of water around the valve 9, inside the seal 16, as long as the flow rate is not greater than a determined limit. When this limit is exceeded, the valve 9, under the effect of the force exerted by the speed of the water, closes by compressing the spring 14 and pressing against the seal 16. The pressure of the water in upstream of the valve 9 keeps the valve closed.

Fig. 5 illustrates an embodiment variant according to which the shutter means RCD also performs the function of non-return valve thanks to a sealing surface constituted in particular by an O-ring 19 provided upstream of the valve 9. In case of flow in contrary to the arrow 13, that is to say in the case of a fluid return, the valve 9 is pushed to the left to apply sealingly against the seal 19 and prevent the flow back. Fig.6 illustrates a variant of the valve of Fig.5, in the form of a double valve 9a, 9b, with a seal 16 range. In case of overflow, the valve 9a is applied against the seal 16, while in case of return of fluid the valve 9b is applied against the seal 16. 10 Automatic closure of the shutter means RCD The automatic closure of the means shutter RCD occurs when the water flow through the shutter RCD, in the direction of the arrow 13 (Fig. 3), exceeds a certain limit. This overhead can be caused in the following manner.

The tap 2 before the counter of the user's installation is closed, while the tap 3 after the counter, if it exists, is open. The installation is drained by opening the trap 5b. After partial emptying of the installation, a sudden opening of the valve 2 before counter is performed, which causes a significant water demand and overhead causing closure of the closure means RCD.

To avoid a flow of water, particularly in a cellar, by the trap 5b which could be troublesome, provision can be made for a connection of the trap 5b to a water recovery system consisting of a nipple, a flexible tube and a tank.

According to a first variant, the emptying of the metering installation alone may be sufficient to ensure the overhead which causes closure of the closure means RCD. For this, we close the valve 2 and the valve 3; the counting installation is then emptied by the trap 5a; the sudden opening of the valve 2 then allows to create sufficient overhead. According to a second variant, the control of closing of the closure means RCD can be caused by the operation of a cylinder-piston assembly (FIG.7) connected, for example, to a maneuvering purge. 21 to create a sudden depression and a rate call higher than that causing the closure of the closure means RCD. Maneuvering purge 21 may be, for example, trap 5a or any other available orifice located along line G.

In addition, the closing of the closure means RCD occurs during a downstream pressure drop caused by a sudden rupture of the pipe or an overhead in the user's installation exceeding the preset of the shutter means RCD.

Reopening of the shutter means RCD The reopening of the shutter means RCD is controlled remotely. It is obtained by re-pressurizing the downstream part of the RCD, after having closed the traps 5a and 5b as well as the tap 3. The re-pressurization, or the exertion of an overpressure in the downstream part of the medium RCD shutter can be obtained by operating the cylinder-piston assembly 20 equipped with a pressure valve connected to the operating purge 21. The device 20 is designed to create a pressure greater than that of the network which maintains the valve 9 bearing against the seal 16. This pressure can be obtained by connecting the chamber 20a, located on the side of the piston 20b opposite the purge 21, to a pressure source through a connector 22, while the other chamber 20c is filled with water. The pressure source may be a pressurized gas cylinder, for example a carbon dioxide cylinder.

In general, the operating purge 21 is the purger 5a. After reopening of the valve 9 of the RCD, it is sufficient to close the valve 2 before the meter and put back the purge plug on the trap 5a, then reopen the valves 2 and 30 3 slowly to avoid triggering the RCD.

The cylinder-piston assembly 20 connected to the level of the purge 21 may be the same as that mentioned about the closure of the shutter means RCD, its function then being reversed. To avoid a long rise in pressure, the sending of a liquid, especially water, can seriously limit this pressurization time. The opening could also be obtained by a slight leakage flow caused at the RCD, for example by reduced diameter orifices provided in the valve 9. This flow will allow the pressurization of the part located downstream of the RCD. RCD shutter means, after closing the valve 2. It is also possible to provide a limited flow rate when the shutter means RCD is closed, so as to ensure a minimum supply downstream of the shutter means.

The unlikely assumption that the RCD closure means would remain in a closed position despite hydraulic overpressure exerted downstream is, however, contemplated. By introducing a ferret 6, as illustrated in FIG. 8, it is possible to unlock or destroy the shutter means RCD blocked in the closed position to restore the flow of water. In the case where there is destruction, it is then sufficient to set up a new closure means RCD, for example about ten centimeters downstream of the position where the previous RCD was.

The establishment of the RCD shutter means according to the invention, upstream of an installation, protects the downstream thereof and therefore all the valve accessories that are connected thereto. Thus, the meter will be protected from prolonged overhead use, which can destroy its components and distort its performance.

The use of an RCD shutter means downstream or inside the tap C (Fig. 1) and without key-lock suppression is possible. The resetting of the shutter means RCD can then be obtained by the maneuvering of the tap C. The shutter means RCD then acts only as an overhead protection.

The RCD closure means for water supply is adapted to drinking water, and is designed to maintain its performance by good resistance to scale, disinfectants and the like.5

Claims (14)

REVENDICATIONS1. A method of connection to a water distribution network, according to which: - a socket (BI) is placed on a pipe (A) of the network; a pipe (G) connecting the plug to the user's installation, this pipe being able to be equipped with a consumption counter (H), and a closing / opening means (C) of the pipe upstream of the counter, characterized in that, behind the plug (BI), a closing means (RCD) capable of closing automatically when a limit value of flow is crossed, either voluntarily or on defect, and clean to be opened by a remote control so that a connection keyed mouth is no longer necessary. 2. Method according to claim 1, characterized in that it causes the closing of the closure means (RCD) by creating an overflow downstream of the plug, by sudden opening of a valve (2), after partial emptying of the user's installation. 3. Method according to claim 1 or 2, characterized in that to ensure the opening of the closure means (RCD) when closed, it exerts a back pressure downstream of the sealing means. 25 4. Method according to claim 3, characterized in that one exerts a hydraulic or pneumatic counterpressure. 5. Method according to claim 4, characterized in that it exerts the hydraulic against pressure using a cylinder-piston assembly (20) momentarily connected 3o to the pipe (G). 6. Method according to any one of the preceding claims, characterized in that there is provided, close to the ground surface, means for locating (1) the socket (BI) located at depth. 7. Device for connection to a water distribution network comprising: - a plug (BI) on a pipe of the network; a pipe (G) connecting the plug to the user's installation, this channelization being able to be equipped with a meter (H); and a means for closing / opening (C) of the pipe upstream of the meter, characterized in that it comprises, downstream of the socket (B1), a shut-off means (RCD) capable of closing automatically when a limit value of flow is crossed either voluntarily, or on default and able to be opened by a remote control, so that a keyed mouth of connection is no longer necessary. 10 8. Device according to claim 7, characterized in that the closure means (RCD) is provided so that its opening is controlled remotely by an overpressure, particularly hydraulic or pneumatic. 9. Device according to claim 7 or 8, characterized in that a means is provided for exerting a back pressure downstream of the closure means (RCD). 10. Device according to claim 9, characterized in that the means for exerting a back pressure comprises a piston-cylinder assembly (20) adapted to be momentarily connected to the pipe (G). 11. Device according to any one of claims 7 to 10, characterized in that the closure means (RCD) is provided to pass a minimum flow in the closed position. 25 12. Device according to any one of claims 7 to 11, characterized in that the closure means (RCD) comprises a valve (9) biased by an elastic means (14) at the opening and by the flow of water at closing. 13. Device according to any one of claims 7 to 12, characterized in that the closure means (RCD) is made of a material relatively easy to destroy with a ferret (6) introduced into the pipe in case of irreversible blocking of the closure means in the closed position. 14. Device according to any one of claims 7 to 13, characterized in that the closing means (RCD) adapted to close automatically comprises a non-return valve (9,19; 9b, 16). 20