FR2595783A1 - Time-delayed tap with automatic closure of the valve - Google Patents

Abstract

In this time-delayed tap, the operating rod 12 and the operating member 13 are hydraulically coupled to one another, the operating rod comprising, at its end opposite that carrying the hollow piston 6, a piston 31 which is slidably mounted in a cylindrical chamber 29 of the said operating member 13, the said cylindrical chamber being filled with liquid and communicating with the internal chamber 9 of the hollow piston 6 through a longitudinal passage 33 which is formed in the operating rod 12 and which comprises a flow-rate reducer. Thus, even if the pushbutton 13 remains accidentally stuck in the pushed-in position, or if it is held pushed in by the user for an excessively long time, the mobile valve 4 formed by the hollow piston 6 closes automatically.

Description

 The present invention relates to a timed tap of the type comprising a hollow body having inlet and outlet openings for a liquid, in particular water, an annular seat located in the hollow body between the inlet and outlet openings , a movable valve located on the upstream side of the seat, an operating rod, which is slidably mounted in a bore formed in the body and which carries an external operating member at one of its ends and said movable valve at its other end , and a compression spring urging the operating rod in a direction corresponding to the closing of the movable valve, the latter being constituted by a hollow piston, which, at rest, is partially engaged in sliding in a cylindrical cavity formed inside of the hollow body and which has in its external peripheral surface a calibrated passage putting the inlet orifice in communication with a chamber delimited by the hollow piston and by said cylindrical cavity .

Timed taps of this type are well known (see for example patent FR 2 367 971). In known timed taps of this type, if the operating rod or the associated operating member, for example a push button, remain accidentally blocked in the position corresponding to the position
open the movable valve after the push button has been actuated by a user, or If the latter keeps the push button pressed either by maintaining pressure on it for an improperly long time, or by blocking it by prohibited means, the liquid, usually water, will continue to flow unnecessarily.

 The present invention solves this problem by allowing the automatic closure of the movable valve at the end of the time delay period of the time-delayed tap, even if the valve operating member remains accidentally stuck or is kept improperly blocked in the position corresponding to the position. opening the movable valve.

 To this end, the valve of the invention is characterized in that the operating rod and the operating member are hydraulically coupled to one another, the operating rod comprising, at its end opposite to that carrying the hollow piston, a piston which is slidably mounted in a cylindrical chamber of said operating member, said cylindrical chamber being filled with liquid and communicating with the internal chamber of the hollow piston through a longitudinal passage which is formed in the operating rod and which comprises a flow reducer.

An embodiment of the present invention will now be described, by way of example, with reference to the accompanying drawings in which
Figure 1 is a longitudinal sectional view of a timed valve according to the present invention, the movable valve of the valve being shown in the closed position.

 FIG. 2 shows, on a larger scale, the movable valve of the tap of FIG. 1.

 Figures 3 and 4 are views similar to that of Figure 1, showing the valve in two other operating situations.

 Figure 5 is a longitudinal sectional view showing, on a larger scale, a part of the valve operating rod.

 Figures 6 and 7 are views similar to that of Figure 5, showing an alternative embodiment in two different operating situations.

 In service, the liquid, generally water, arrives in the body 1 of the tap through an inlet orifice 2 and exits through an outlet orifice 3 when the movable valve 4 of the tap is moved away from the annular seat 5.

 The movable valve 4 is constituted by a hollow piston 6, which is located on the upstream side of the seat 5 and which is partially engaged in a cylindrical cavity 7 of the body 1, an annular seal 8 being disposed between the piston 6 and the wall cylindrical of the cavity 7. The chamber 9 delimited by the udder 6 and by the cavity 7 communicates with the inlet orifice 2 through a calibrated passage constituted for example by a groove 11 formed longitudinally in the outer peripheral surface of the piston 6 as shown in Figures 1 and 2.

However, the groove i1 can be replaced by a calibrated orifice drilled radially in the periphery of the piston 6.

The piston 6 is mounted at one end of an operating rod 12, which is slidably mounted in the body 1 and the other end of which is connected to a push button 13 of a
manner which will be described later. The operating rod 12 is biased by a compression spring 14 in the direction of the arrow F (FIG. 1), that is to say in a direction
corresponding to the closing of the movable valve 4. As is more particularly visible in FIG. 2, the rod of
operation 12 passes through a hole 15 which is formed in the bottom 6a of the hollow piston 6 and which has a slightly larger diameter than that of the rod 12.Two axial stops, constituted for example by two open rings 16 and 17 of the "circlip" type ", which are fixed to the rod 12 at a mutual distance a little greater than the thickness of the bottom 6a of the hollow piston 6, allow a limited relative axial movement between the rod 12 and the piston 6. An O-ring seal 18 is mounted on the rod 12 between the bottom 6a and the ring 17. The seal 18 closes the annular passage formed between the hole 15 and the rod 12 when the latter is biased in the direction of the arrow
F by the compression spring 14. The rod 12, the compression spring 14, the ring 17 and the seal 18 form a pressure relief valve of the chamber 9 when the rod 12 is moved in the opposite direction to the arrow F to open the movable valve 4.

 As shown in Figure 1, the rod 12 is slidably mounted in a valve head 19 having roughly a cylindrical shape, which is slidably engaged in a bore 21 of the body 1, coaxial with the cylindrical cavity 7. The valve head 19 is maintained in the body 1 by an annular plug 22. The tap head 19 has an inner cylindrical chamber 23 having an annular shoulder 24 which forms, in combination with an annular seal 25, the seat 5. When the movable valve 4 is open, the inlet orifice 2 communicates with the chamber 23 through at least one inlet lumen 26 formed in the cylindrical wall of the chamber 23 upstream of the seat 5. The chamber 23 communicates with the orifice of outlet 3 through at least one outlet lumen 27 formed in the cylindrical wall of the chamber 23 downstream of the seat 5.

 Instead of the arrangement described above with regard to the mounting of the rod 12 in the tap head 19, the seat 5 and the arrangement of the seal 8 in the cylindrical cavity 7, it is of course possible to use an arrangement similar to that shown in FIG. 1 of patent FR 2 367 971.

 The push button 13, cup-shaped, has in its middle a short hollow cylindrical part 28, which forms a chamber 29 in which a piston 31 is slidably mounted. The piston 31 is rigidly fixed or is an integral part of the rod 12.

A threaded ring 32 screwed onto the cylindrical part 28 prevents the piston 31 from leaving the chamber 29 and contributes to guiding the push button 13 and the rod 12 in the tap head 19.

 In service, the chamber 29 is filled with water and it communicates with the chamber 9 through a longitudinal passage 33, which is formed in the rod 12 and which comprises a flow restrictor.

The latter can be constituted by the passage 33 itself, at least part of which has a calibrated diameter. The flow restrictor can also be constituted by an insert 34, which is mounted in the passage 33, for example at the end of the latter adjacent to the piston 31, and which has a hole 35 of calibrated diameter as shown in FIG. 5.

 As shown in Figures 6 and 7, a unidirectional valve 36 can be mounted in the passage 33 at one end thereof, for example at its end which is adjacent to the piston 31. The valve 36 is arranged so to allow 1 flow of water from the chamber 9 to the chamber 29. In the case where such a one-way valve 36 is provided, a passage 37 of calibrated section can be formed in the seat 38 of the one-way valve 36, the passage 37 then forming the aforementioned flow reducer. As a variant, the passage of calibrated section can be formed in the valve 39 of the unidirectional valve 36.

 The operation of the tap which has been described above will now be described. It will be assumed that, when all the movable elements 4, 12 and 13 of the valve are in the respective rest positions shown in FIG. 1, the chambers 9 and 29 are completely filled with water and that the pressure prevailing in said chambers is equal to that prevailing in the inlet 2.

When a user exerts a pressure on the push button 13 to open the tap, the movement of the push button 13 is transmitted to the rod 12 by the water contained in the chamber 29. Indeed, in all cases, the section or the calibrated diameter of the passage 33, 35 or 37 of the flow restrictor is chosen so that a very small amount of water flows from the chamber 29 to the chamber 9 for a very short time (one to two seconds) necessary to move the push button 13 from the position shown in Figure 1 to the position shown in Figure 3 under the pressure exerted by the user. As a result, the quantity of movement of the push button 13 is practically entirely transmitted to the rod 12. During a first phase of movement of the rod 12, corresponding to the time necessary for the ring 16 to come into contact with the bottom 6a of the hollow piston 6, the decompression valve formed by the elements 12, .14, 17 and 18 opens, thus lowering the pressure in the chamber 9, which then facilitates the opening of the movable valve 4 under the push of the rod 12 and the ring 16. When the movable valve 4 is open (FIG. 3), the water flows from the inlet orifice 2 to the outlet orifice 3 by passing through the light d entry 26, the central hole of the annular seat 5, the chamber 23 and the exit lumen 27.

 If, as it should be, the user has released the pressure on the push button 13 immediately after the opening of the movable valve 4, the rod 12 is returned in the direction of the arrow F by the compression spring 14, so that the pressure relief valve formed by the elements 12, 14, 17 and 18 closes.

However, at this time, the movable valve 4 is not immediately brought back by the rod 12 and by the spring 14 in contact with the seat 5. In fact, the difference in pressures which prevail on both sides of the bottom 6a of the piston 6 retains the movable valve 4 in the open position for a predetermined time corresponding to the time necessary to restore the pressure in the chamber 9 through the calibrated passage 11. At the end of the predetermined time, the movable valve 4 comes into contact with the seat 5 under the action of the compression spring 14 and the pressure which is restored in the chamber 9. At the same time, the push button 13 is pushed back in the direction of the arrow F by the rod 12 and by the water contained in chamber 29.After closing the movable valve 4, if chamber 29 had partially emptied of the water which it contained, it is again filled with water from chamber 9 and through passage 33 rod 12.

 On the other hand, if the push button 13 remains accidentally blocked in the depressed position or if it is kept depressed by the user for an improperly long time, the movable valve 4 will, despite this, close automatically as we will now see. Indeed, in this case, under the action of the compression spring 14 on the rod 12, the piston 31 progressively drives out the water contained in the chamber 29 towards the chamber 9 through the passage 33 of the rod 12 and through the flow restrictor provided in said passage. The water which is expelled from the chamber 29 towards the chamber 9 contributes with the water which flows through the calibrated passage 11 to restore the pressure in the chamber 9 and, consequently, to cause the closure of the movable valve 4 as shown in Figure 4. When the push button 13 is finally released or released by the user, the chamber 29, in which there is zero pressure at this time, is again gradually filled with water from the chamber 9 through passage 33. This has the effect of pushing the push button towards its rest position shown in FIG. 1. In the case where the unidirectional valve 36 of FIGS. 6 and 7 is provided, the filling of chamber 29 is then facilitated because, owing to the difference in pressures prevailing in the chambers 9 and 29, the valve 36 opens and thus offers a larger cross-section for the flow of liquid from the chamber 9 to the chamber 29.

 It goes without saying that the embodiment which has been described above has been given by way of purely indicative and in no way limitative example, and that numerous modifications can be easily made by those skilled in the art without however departing. of the scope of the present invention. In addition to the variants already mentioned in the description, it will be noted that the rod 12 is not necessarily arranged to exert a thrust on the movable valve 4 to open it. Indeed, the rod 12 can be arranged to exert traction on the movable valve 4 to open it. In this case, the rod 12 would be slidably mounted in the bottom of the cavity 7, the operating member 13 would no longer be a push button but a pulling member, which may have a shape similar to that of the push button 13 and which may optionally be associated with a pivoting operating lever, and the water chamber 29 would then be the annular chamber delimited by the rod 12, the piston 31 and the ring 32, that is to say the chamber situated from the other side of the piston 31 relative to the chamber 29 of FIGS. 1 and 3.

Claims (5)

 1.- Timed tap comprising a hollow body (1) having inlet and outlet openings (2 and 3) for a liquid, in particular water, an annular seat (5) located in the hollow body between the inlet and outlet ports, a movable valve (4) located on the upstream side of the seat, an operating rod (12), which is slidably mounted in a bore formed in the body and which carries an external operating member (13 ) at one of its ends and said movable valve at its other end, and a compression spring (14) urging the operating rod in a direction corresponding to the closing of the movable valve, the latter being constituted by a hollow piston ( 6), which, at rest, is partially slidably engaged in a cylindrical cavity (7) formed inside the hollow body and which comprises in its external peripheral surface a calibrated passage (11) placing the orifice inlet (2) in communication with a chamber (9) delimited by the hollow piston and by ladi the cylindrical cavity, characterized in that the operating rod (12) and the operating member (13) are hydraulically coupled to one another, the operating rod comprising, at its end opposite to that carrying the piston hollow (6), a piston (31) which is slidably mounted in a cylindrical chamber (29) of said actuator (13), said cylindrical chamber being filled with liquid and communicating with the internal chamber (9) of the hollow piston (6 ) through a longitudinal passage (33) which is formed in the operating rod (12) and which comprises a flow restrictor.  2. Timed valve according to claim 1, characterized in that the flow restrictor is constituted by said longitudinal passage (33) itself, at least part of which has a calibrated diameter.  3. Timed valve according to claim 1, characterized in that the flow restrictor consists of an insert (34) mounted in said longitudinal passage (33) and comprising a hole (35) of calibrated diameter.  4.- Timed tap according to any one of claims 1 to 3, characterized in that a unidirectional valve (36) is mounted in said longitudinal passage (33) so as to allow the flow of liquid from the interior chamber (9) from the hollow piston (6) to the cylindrical chamber (29) of the operating member (13).  5. Timed valve according to claim 4, attached to claim 1, characterized in that the flow restrictor is constituted by a passage (37) of calibrated section, which is formed in the seat (38) or in the valve ( 39) of the unidirectional valve (36).