FR2910106A1 - Water flushing tank insulating valve e.g. stop valve, for controlling tank re-filling level, has connection unit integrated to casing that is mounted on valve body, where pivoting of casing angularly varies position of connection unit - Google Patents

Abstract

The valve has a body with a connection unit (11) connected to a water supply and a water distribution unit in a tank connected to the connection unit. An opening/closing unit opens/closes a water circulation between the connection and water distribution units according to a level of the water in the tank. The connection unit connected to the water supply is integrated to a casing (2) that is pivotally mounted on the body, where the pivoting of the casing angularly varies a position of the connection unit with respect to the body and to an axial position of the distribution unit.

Description

1 Isolation valve for a water tank comprising a movable member

  allowing to angularly vary the position of the connection means to the water supply. The field of the invention is that of sanitary equipment. More specifically, the invention relates to stopcocks mounted upstream of flush tanks with controlled liquid level. In the field of the invention, it is conventional to use to control the filling level of a flush tank, a float which, by the pressure of Archimedes, transmits the force developed by the water on the float has opening / closing means for allowing / stopping the delivery of water into the reservoir depending on the level of water in the reservoir. Upstream of these devices is generally mounted, outside the tank, a stopcock (otherwise referred to as isolation valve), in particular for the purpose of isolating the reservoir from the water supply, this in particular in the framework of maintenance or installation operations. Several types of isolation valve are currently known, including: shut-off valves with which the closure or opening is obtained by screwing or unscrewing a handle; quarter-turn isolating valves, comprising a plug or a ball whose rotation causes the water passage to be plugged or not; isolation valves with ceramic discs, in which the discs slide over one another without joint. Traditionally, the faucets of the cisterns are mounted in two different configurations: an angled mounting: the supply of the isolating valve is at 90 from the outlet of the latter (eg: supply pipe 30 coming out of the wall behind the tank, and connected to the isolation valve itself connected to the float valve of the tank); straight mounting: the isolating valve supply is 180 from the outlet of the latter (eg: supply pipe leaving the wall on the left, on the right or the floor from below the tank, and connected to the water tap; The insulation itself is connected to the float valve of the tank, so the configuration chosen is a function of the arrangement of the supply duct with respect to the tank.

  The installer must therefore check the configuration before buying the corresponding isolation valve, with a risk for the non-specialist to make a mistake. In any case, the isolation valve manufacturers must produce both types of faucet to meet the needs, which implies means of manufacturing specific to each valve, which affects the price of faucets. Moreover, all current solutions have in common a disadvantage relating to a known phenomenon in the field of plumbing under the name of water hammer. The water hammer is generated by the rapid and sudden closure of a liquid flow (in this case, in the context of the invention, by stopping the filling of the reservoir caused by the float), resulting in a sudden rise in pressure inside a duct. These water hammers thus generate a pressure wave which is manifested by a more or less significant sound effect.

  In any case, the sound effect caused by water hammer is undesirable. The invention particularly aims to overcome the disadvantages of the prior art.

More specifically, the invention aims to provide an isolation valve for flush tank that easily adapts to all configurations of supply tanks. Another object of the invention is to provide such an isolation valve which eliminates, or at least minimizes, the undesirable sound effects due to water hammer. The invention also aims to provide such an isolation valve that allows to consider lower production costs. Another object of the invention is to provide such an isolation valve 10 which is simple in design and easy to implement. These objectives, as well as others which will appear later, are achieved thanks to the invention which has for object: an isolation valve of a flush tank, of the type comprising a body having means for connection to a water supply, means for distributing water in said tank capable of being connected to said connection means, and means for opening / closing said connection means to said supply and / or said distribution means , characterized in that said connecting means to said power supply are integrated in a member movably mounted in said body and for angularly varying the position of said connecting means 20 to said power supply. In this way, it is easy to adapt the isolation valve according to the configuration of the supply duct relative to the tank. In other words, with such a valve, it is possible to consider either an angle mounting or straight mounting as mentioned above. It is noted that an isolation valve thus formed has, by presenting a unique model for the different configurations, the advantages: to eliminate the risk of error for buyers; to allow gains in terms of cost of production, with means of manufacturing and a single assembly range.

In this case, according to a preferred embodiment, said one or more mobile members comprise at least one plug rotatably mounted relative to an axis parallel to the longitudinal axis of said body or coincides with the longitudinal axis of said body.

Thus, the possibility of angularly varying the position of the connecting means is obtained by the implementation of simple design means, easy to mount. Preferably, said plug is rotatably mounted inside said body, an angular deflection window being formed on said body.

An isolation valve thus formed is very convenient for the user, who can easily change the angular position of the tool-less connection means simply by pivoting the connection means with respect to the valve body. According to another characteristic of the invention, said body integrates a chamber communicating with said connection means to said supply, said chamber incorporating damping means of a pressure rise of the water in said chamber. Thus, thanks to the invention, when closing the stopcock, the pressure wave corresponding to the water hammer is cashed by the damping means 20. This avoids the unwanted sound effects of water hammers, by the implementation of simple and effective means, as will appear more clearly later. According to an advantageous solution, said damping means comprise mobile means capable of varying a volume of said chamber in communication with said connecting means to said supply, as a function of the pressure prevailing in said volume. The pressure wave then causes movement of the moving means, which tends to temporarily increase the volume of the chamber communicating with the connection means, the wave being damped by the damping means. In this case, said moving means advantageously comprise a piston slidably mounted in said chamber.

This provides a simple and effective moving means which can be easily mounted in the body of the stopcock. Preferably, said movable means are coupled to resilient return means intended to be compressed under the effect of an increase in pressure in said chamber.

The pressure wave is thus transmitted to the elastic return means via the moving means, and absorbed by the elastic return means which then restore the compression force when the pressure is stabilized. Advantageously, a seal is mounted on said piston so as to seal between said piston and said chamber. According to a preferred embodiment, said chamber has a shoulder delimiting a first volume in communication with said connection means to said supply and a second volume, in the extension of said first volume, and wherein said piston is slidably mounted, said piston carrying a flexible member to be pressed against said shoulder. Thus, when the piston returns to its default position (that is to say outside the effects of the pressure wave), the flexible element dampens the contact of the moving means on the shoulder, avoiding generating a shock likely to generate a sound effect. Advantageously, said body has, in the lower part of said body, a purge plug. According to another advantageous characteristic of the invention, said tap incorporates means for filtering water.

It has become common to equip the tank filling valves with a servovalve which controls the filling of the tank according to the level of water in the tank. Such a servovalve contributes to the ergonomics (especially in terms of compactness) and the efficiency of the filling valves.

However, a servovalve is a member sensitive to impurities present in the water circuit (sand, chips generated by maintenance work, etc.). The use of filtration means therefore limits the risk of malfunction of the servovalve downstream of the stopcock. Advantageously, the valve comprises removable access means 10 to said filtering means. It is thus easy to proceed with the maintenance of the filtration means. According to another feature related to the filtration means, the valve comprises means for viewing said filtering means.

In this way, the condition of the filtration means can be checked without the need for any intervention (disassembly / reassembly) on the tap. In this case, the valve preferably comprises a transparent cap removably mounted on said body at said filtering means. Such a cap thus has a dual function: that of allowing easy access to the filtering means and that of allowing their visualization. Preferably, said connection means communicate directly with said chamber.

In this way, the damping means are in direct contact with the pressure of the network. There is thus no risk that closing the isolation valve hinders the smooth operation of the damping means. For this, according to a preferred solution, said plug comprises a central duct into which laterally open said connecting means, said central duct communicating at one of its ends with said chamber and at the other end thereof with said filtering means. . This gives a robinet of a particularly simple and effective design. The valve is divided into two zones fed by a common part 5 (the plug), one of the areas leading to the distribution means and integrating the filtering means, the other area incorporating the damping means of the pressure waves. Other characteristics and advantages of the invention will emerge more clearly on reading the following description of a preferred embodiment of the invention, given by way of illustrative and nonlimiting example, and the appended drawings, among which: : Figure 1 is a longitudinal sectional view of a stopcock according to the invention; Figure 2 is a partial exploded view of a shutoff valve 15 according to the invention. As indicated above, the principle of the invention lies in the fact of designing a flush tank isolating valve such that it allows angularly varying the position of the water supply around of the faucet body.

With reference to FIG. 1, an isolation valve according to the invention comprises: a body 1presenting connection means 11 to a water supply 111, and water distribution means 12 connected to the reservoir; A threaded sleeve 1111 connected to the connecting means 11 and to which is coupled a water supply 111; another sleeve 121 screwed onto the dispensing means 12 (the sleeve 121, as illustrated in the exploded view of the FIG. 2 comprises a ring 1211, a coupling 1212 and a seal 1213); open / stop means described in more detail later.

According to the present embodiment of the invention, the valve comprises a member pivotably mounted in said body 1 and integrating the connecting means 11 so that the pivoting of this member allows angularly varying the position of the means. connection piece relative to the body and in particular with respect to the axial position of the distribution means 10 12. This movable member is, according to the present embodiment, constituted by a plug 2 in which is formed a central conduit 21 passing through the bushel from one side to the other longitudinally. A radial bore communicates with the central duct 21, this bore 15 being threaded so as to constitute the connection means 11 on which a threaded sleeve 1111 can be screwed in order to ensure the connection with the water supply 111. The bushel 2 is rotatably mounted in a cage 15 formed in the body 1, this cage having a longitudinal axis (corresponding to the axis about which the plug is rotatable) parallel to the longitudinal axis of the body 1. The sealing of the bushel 2 relative to the cage 15 is provided by two truncated joints 22 housed in grooves 221 provided near the ends of the plug. Furthermore, as shown in Figure 2, the body has in its upper portion 25 a window 141 through which the sleeve 1111 can be screwed on the connection means 11 of the plug. This window extends radially so as to allow the angular clearance of the connection means, this by acting on the sleeve 1111. Preferably, the window 141 extends over approximately 180.

Referring to Figures 1 and 2, the upper portion 14 of the body comprises two ducts: an upstream duct 142 communicating with the connecting means 11 through the central recess 5 21 of the plug 2; a downstream duct 143 communicating with the distribution means 12. The upper portion is overhung by the opening / stopping means 3, an upstream duct 31 communicates with the upstream duct 142 of the upper part 10 and a downstream duct 32 communicates with the downstream duct 143 of the upper part 14. The upper part is rotatably mounted on the valve body. Preferably, the upper part is rotatable over a quarter of a turn, between a position in which the ducts 31, 32 are in communication with the ducts 142, 143 respectively (thus allowing the circulation of water) and a position according to which the ducts 31, 32 are angularly offset relative to the ducts 142, 143 (thus preventing the circulation of water). In addition, the opening / stopping means incorporate a filtration module 30 accessible via a removable cap 33 made of transparent plastic (allowing the filtration means to be viewed) to be removed from the body 1. According to another characteristic of the In the invention, there is provided in the valve body means capable of absorbing the pressure waves that may occur when the valve is closed. This is illustrated in FIG. 1, which shows that the body 1 of the valve 25 comprises an upper part 14 on which is fixed (for example by screwing), in the lower part, a shank 13 whose end is closed by a bleed plug 131 screwed on the barrel 13. In this barrel, is provided a chamber 132, a volume 1321 communicates via a conduit 21 (formed in a bushel 2 2910106 10 described in more detail later), with the connection means 11 and therefore with the water supply 111. The chamber 132 includes a piston 133 slidably mounted in the chamber, a spring 134, slightly prestressed, being interposed between the piston 133 and the bottom of the chamber. According to this arrangement, the pressure of the water network (via the feed 111) is capable of compressing the spring 134, the latter being mounted at atmospheric pressure. Upon closing of the filling valve, the pressure wave acts on the piston so as to generate a compression of the spring which then acts as a damper for the rise in pressure of the water in the chamber, and more precisely in the volume 1321. Furthermore, the shaft 13 has a shoulder 135 at the junction of the volume 1321 and the volume of the chamber in which the piston slides.

The piston abuts against this shoulder 135 in the absence of pressure in the network. Once the pressure rise damped by the piston / spring assembly (the piston having slid towards the bottom of the chamber), the piston rises towards the shoulder 135 once the peak of water pressure has fallen.

The contact between the piston 133 and the shoulder 135 is provided by a rubber washer 1332 carried by the piston 133, the relatively soft material of the washer damping the return of the piston against the shoulder and avoiding the slamming of the piston against the shoulder. The seal between the piston 133 and the chamber 132 is provided by an O-ring 1331 mounted in a peripheral groove on the piston. In addition, as previously mentioned, a purge plug 131 is screwed tight on the barrel 13 (the seal being provided by an O-ring 1311 mounted on the barrel) in order to clamp the spring chamber in the case for example of a slight leakage at the piston and maintenance of the valve.

It is noted that the end of the barrel has a central bore 136 forming a housing for receiving an end finger (not shown) of the spring 134. The positioning and the holding in position of the spring in the chamber are thus assured of simple way, with easy and fast assembly.

It will also be noted that the central duct 21 of the plug 2 extends from one side to the inside of the plug and puts the water supply on the one hand in communication with the filtration module and on the other hand directly with the filter module. the volume 1321 of the chamber 132. Thus, the anti-ram function is mounted upstream of the filter 3 and is therefore in direct contact with the pressure of the network. 15

Claims (16)

  1. Isolation valve of a flush tank, of the type comprising a body (1) having connecting means (11) to a water supply, means (12) for distributing water in said tank capable of being connected to said connection means (11), and means for opening / stopping the circulation of water between said connecting means (11) and said dispensing means (12), characterized in that said connecting means (11) to said supply are integrated with a member (2) movably mounted in said body (1) and for angularly varying the position of said connecting means (11) to said supply.   2. A flush tank isolation valve according to claim 1, characterized in that said one or more movable members comprise at least one plug (2) rotatably mounted relative to an axis parallel to the longitudinal axis. said body (1) or coincides with the longitudinal axis of said body (1).   3. Isolation valve for a cistern according to claim 2, characterized in that said plug (2) is rotatably mounted inside said body (1), an angular displacement window (141) being formed on said body.   4. Isolation valve of a cistern according to any one of claims 1 to 3, characterized in that said body (1) incorporates a chamber (132) communicating with said connecting means (11) said supply, said chamber (132) incorporating damping means (133), (134) a rise in pressure of water in said chamber (132).   5. Isolation valve of a cistern according to claim 4, characterized in that said connecting means (11) comprise movable means capable of varying a volume (1321) of said chamber (132) in communication with said connection means (11) to said supply, as a function of the pressure in said volume (1321). 2910106 13   6. A flush tank isolation valve according to claim 5, characterized in that said movable means comprises a piston (133) slidably mounted in said chamber (132).   7. Isolation valve of a cistern according to one of claims 5 and 6, characterized in that said movable means are coupled to elastic return means (134) intended to be compressed under the effect of a rise in pressure in said chamber (132).   8. A flush tank isolation valve according to one of claims 6 and 7, characterized in that a seal (1331) is mounted on said piston (133) so as to ensure the sealing between said piston (133) and said chamber (132).   9. Isolation valve of a cistern according to any one of claims 6 to 8, characterized in that said chamber (132) has a shoulder (135) defining a first volume (1321) in 15 communicating with said connecting means (11) to said supply and a second volume, in the extension of said first volume, and wherein said piston (133) is slidably mounted, said piston (133) carrying a flexible member (1332) for be pressed against said shoulder (135).   10. Isolation valve of a cistern according to any one of claims 1 to 9, characterized in that said body (1) has in the lower part of said body a purge plug (131).   11. Isolation valve of a cistern according to any one of claims 1 to 10, characterized in that it integrates means for filtering (30) water.   12. valve for isolating a flush tank according to claim 11, characterized in that it comprises removable access means to said filtering means (30).   13. Isolation valve of a flush tank according to one of claims 11 and 12, characterized in that it comprises means for viewing said filtering means (30). 2910106 14   14. Isolation valve (a flush tank according to claims 12 and 13, characterized in that it comprises a cap (33) transparent removably mounted on said body at said filtering means.   15. A flush tank isolation valve according to any one of claims 4 to 14, characterized in that said connecting means (11) communicate directly with said chamber (132).   16. Isolation valve of a cistern according to claims 2, 11 and 15, characterized in that said plug (2) comprises a central duct (21) in which laterally open said connecting means ( 11), said central duct (21) communicating at one of its ends with said chamber (132) and at the other end thereof with said filtering means (30). 15