FR2676108A1 - Device for operating remotely controlled valves - Google Patents

Abstract

Device for reversing the direction of operation of a manually controlled valve 1. This device for a valve with an operating rod 11 with an anticlockwise direction of rotation and manual control by means of a movable operating banner (key) 29 at the end of a rod 30 actuated by a lever or handwheel 31 includes a direction of rotation reverser C mounted inside a guide frame 27 sealed into a manhole 3. Application to so-called anticlockwise closure valves in order to obtain a so-called clockwise closure.

Description

 The present invention relates to a device for operating valves with manual control. More particularly, it relates to the control of valves for water pipes, using a movable operating key actuated by a steering wheel or a lever.

 Valves of this type are generally placed at a certain distance from the operator who must operate them, because they are buried, or placed in a valve chamber or even in an underground gallery. The closure of their shutter member is effected by rotation of the handwheel or operating lever anticlockwise, that is to say, in short, in the direction "FAH": "anti-closing clock". However, standardization in order to facilitate the work of technical staff recommends that all the valves be closed by turning the handwheel or lever clockwise, that is to say, in short, "FSH ":" close clockwise ".

 The Applicant has posed the problem of continuing to use such existing valves by closing them in the new direction "FSH", without having to replace the existing devices sometimes located at significant depths.

 This problem is solved by the device according to the invention, which comprises, between the operating rod of the valve with closing rotation in the "FAH" direction and a mobile key for remote operation by means of said handwheel or lever, a mechanism direction of rotation reverser removably coupled, on the one hand to said valve operating rod, and on the other hand to the movable key.

 The Applicant has also posed the problem of supporting the reversing mechanism thus coupled without it being subjected to ground movements such as slippage and weakening to which a water pipe can be subjected, therefore a valve mounted on this pipe.

 This problem is solved by another characteristic of the invention according to which the reversing mechanism coupled to the valve operating rod is housed and guided vertically inside a guide frame which is sealed in a manhole under which the valve is placed.

 Thanks to this other characteristic, the inverter is free from any constraint of ground undergone by the gaze.

Other characteristics and advantages will appear during the description which follows and with reference to the appended drawings, given solely by way of nonlimiting example, in which
- Fig. 1 is a schematic view in vertical section of the device of the invention applied to a buried valve,
- Fig. 2 is a sectional view along the line II-II of FIG. 1,
- Fig. 3 is a partial view in section similar to FIG. 2, of an alternative embodiment of the invention.

 According to the embodiment of FIG. 1, the invention is applied to a valve 1 with a vertical axis YY mounted on a buried pipe A, with a horizontal axis XX, for example a water pipe. The access to the valve 1 located at a certain depth of a ground S from the level N of the ground, is, as known, achieved by means of a buried extension tube 2, resting on the valve 1 or on a mechanism (not shown) of adequate reduction for this valve.

 As known, the valve 1 comprises a body 6 with inlet and outlet pipes of axis XX, connected to the pipe A. The body 6 is capped with a cap 7 of axis YY and comprises seats 8 symmetrical by relative to a vertical plane passing through the axis YY and parallel to the inlet and outlet pipes of the valve 1. A shutter 9 is capable of being applied in a sealed manner to the seats 8 in the closed position, and of being move in translation of axis YY to a high position, in broken lines, completely clearing the passage between the tubes of axis XX, in the open position.

The shutter or cover 9 forms a nut relative to an operating screw 10 provided at the lower end of an operating rod 11 of axis YY, carried by the cap 7.

In this example, the rod 11 carries a collar 12 immobilized in translation between a shoulder 13a formed inside the cap 7 and a plug 13b screwed onto the cap 7. At its upper part located above the plug 13b, the rod operating lever 11, or its possible extension 11a when it is made necessary by the installation depth, comprises, as known, an operating square 14.

 By assumption, a rotation of the operating rod 11 in the direction of clockwise, that is to say, for short, in the direction "SH", causes the opening of the shutter 9 (position in broken lines), while a rotation of the rod 11 anticlockwise, that is to say, abbreviated, in the direction "AH", causes the shutter 9 to close (solid line position). The sign "FAH" therefore means, here: "anti-clock closing" and is illustrated by an arrow of rotation around the axis YY, carrying the reference FAH. The operating square 14 is accompanied by the acronym AH, it being understood that it is, here, the direction of closure.

 According to the invention, the upper end of the extension tube 2, preferably surmounted by a cover 2a itself crossed by the operating rod 11, and the upper end of this operating rod open out into the bottom 3a of a manhole 3. Manhole 3 is for example made of concrete, surmounted by a frame 4, of concrete or cast iron, closed by a cover or closing pad 5 of concrete or cast iron, at the level N of the ground. In this example, the manhole 3, the frame 4 and the buffer 5, of vertical axis YY have a circular section. Alternatively, they may have a square section.

 Inside the manhole 3, an inverter C is coupled to the operating rod 11. For this purpose, a coupling sleeve 15 is fitted on the square 14 AH, in the extension of the axis YY, and receives a another operating square 16 located at the end of a shaft 17 AH for input of the inverter C. The shaft 17 AH is mounted along the axis YY.

The sleeve 15 and the squares 14 and 16 are traversed right through by removable retaining pins 18. The pins 18 secure in translation the rod 11 and the shaft 17.

The reverser C is produced for example in the form of two pairs of bevel gears having a common bevel gear. Inverter C includes
- a bevel gear 19 of axis YY, on the input shaft 17 AH. The toothing of the wheel 19 is directed upwards
- a common pinion 20, of axis ZZ perpendicular to
YY and forming with the wheel 19, on which it is engaged, the first pair of bevel gears, (the axis ZZ being horizontal); the pinion 20 is carried by a shaft 26 of axis ZZ;
- a bevel gear 21 of axis YY, identical to wheel 19, therefore of the same diameters and of the same toothing, but mounted symmetrically thereto relative to the axis ZZ, in engagement with the pinion 20. The toothing of the wheel 21 is directed downward, and the wheel 21 forms with the pinion 20 the second pair of bevel gears.

 The bevel wheel 21 is integral with an output shaft 22 H of axis YY, therefore in the axial extension of the input shaft 17 AH with which the wheel 19 is integral.

The shaft 22 H is so designated because, for a direction of rotation of the shaft 17 along the arrow FAN, and a correlative direction of rotation R of the pinion 20, the shaft 22 rotates in a direction of rotation along the arrow FSH, therefore, in the opposite direction to the tree 17, therefore in the clockwise direction.

 At its upper end, the shaft 22 H ends in an operating edge 23. The bevel gears 19, 20, 21 and their respective shafts 17, 26 and 22 are housed in a housing 24 having, for example a parallelepiped shape (Fig. 2). The housing 24 therefore offers, in this example, two opposite outer planar faces 25 parallel to each other and to the vertical axis YY, and two other opposite outer faces 27a which are used for its mounting inside a frame metallic 27.

 According to the invention, (Fig. 1 and 2), the metal frame 27, or guide frame 27, for example made of cast iron, is parallelepipedic and frames the case 24 of the inverter C so that the two opposite faces 25 of the housing 24, as well as the two other opposite external faces 27a are guided with a slight clearance by the corresponding internal flat faces of the guide frame 27.

 The guide frame 27 is provided with four parallel flat support wings 28, located for example in the extension of two opposite parallel faces of the frame 27, and forming, in plan view (Fig. 2) a kind of H with the frame -guide 27. The support wings 28 are sealed in the manhole 3 so that the vertical axis of the cadreguide 27 merges with the axis YY of the rod 11 of the valve 1.

 For the manual control of the valve 1, an operating key 29 is used, as known, fitting onto the square 23. The key 29 is integral with the end of a rod 30, itself integral in rotation d 'a lever or handwheel 31. The rod 30 has a suitable length to allow turning the key 29 (which is placed on the square 23 inside the manhole 3, below the frame 4 and its buffer 5 ) from a comfortable position of the operator above the level N of the ground.

OPERATION
10 / Closing of valve 1: the shutter 9 is initially in the open position (broken line at the
Fig. 1), an operator turns the lever or handwheel 31 in the FSH direction (in accordance with the recommended recommendation). The toothed wheel 21 therefore rotates in the "clock" direction FSH and, via the bevel pinion 20, this rotation is transmitted to the toothed wheel 19 in the opposite direction which is the direction FAH for which the valve 1 was designed at the origin (sense of "anti-clock closing").

The shutter 9 is thus placed in abutment against the seats 8 (position in solid line in FIG. 1).

 20 / Opening of valve 1: The operator operates the lever or handwheel 31 in the opposite direction to that of closing, therefore in the "anti-clock" direction.

INSTALLING THE DEVICE
The installation of the manhole 3 and the reverser C is carried out in the following manner.

 After having carried out the earthworks necessary to clear the upper ends of the extension tube 2 and the operating rod 11, the manhole 3 is put in place. The operating square 14 AH is then offered directly to the key 29, before the mounting of reverser C.

The adaptation of the inverter C is then carried out as follows
- the coupling sleeve 15 is fitted on the square 14 of the rod 11 and a pin 18 is placed
- After having provided grooves on the internal wall of the manhole 3 at the locations envisaged for the sealing of the wings or lugs 28, the guide frame 27 is lowered into the manhole 3 in the vicinity of its final sealing position
- Then the reverser C is introduced by crossing the frame 27 until the square 16 of the input shaft 17 fits into the coupling sleeve 15. The other pin 18 is placed;
- The guide frame 27 is then adjusted so that its internal guide faces are well parallel to the guided external faces 25 and 27a of the housing 24 of the inverter C, while leaving a uniform play with them.

This position being obtained, the guide frame 27 is sealed in the manhole 3 by its wings 28 and remains definitively in place.

 The frame 4, accompanied by its closing pad 5, is then placed and sealed on the manhole 3.

 Of course, it is also possible to introduce the reverser C and couple the square 16 and the mandrel 15 before introducing the guide frame 27. The guide frame 27 is then adjusted around the housing 24 in the same way as before, before to seal the wings 28 in manhole 3.

 If necessary, disassembly of the reverser C is possible at any time: it suffices for example to remove the upper pin 18 and disengage the square 16 from the sleeve 15, then lift the reverser C above the level N of the ground. During disassembly, the guide frame 27 remains in place. It also serves to guide the rise of the inverter C during its disengagement from the sleeve 15. It is also possible to remove the lower pin 18 and cause the sleeve 15 to rise with the inverter.

 To reassemble the inverter C, the guide frame 27 remaining in place is used to guide the descent of the housing 24 of the inverter C and the fitting of its square 16 in the sleeve 1 5.

BENEFITS
- Thanks to the inverter C, it is possible to keep the existing valves 1 and their control mechanism, the closing operation of which is carried out in the opposite direction to that which is the subject of standardization today.

 - Thanks to the combination of the sleeve 15 of the inverter C and the guide frame 27, it is easy to adapt an inverter C to an existing valve 1, without having to carry out deep excavations to access said valve, and without stopping distribution of water in the network.

 - Thanks to the guided assembly with clearance of the housing 24 of the inverter C and of the guide frame 27, any ground movement (for example a sliding or a collapse) capable of being transmitted vertically by the wings 28 to the frame - guide 27 has no repercussion on the reverser C and on the valve 1 itself, since the guide frame 27 can then move vertically freely relative to the external faces 25 and 27a of the casing 24 of reverser C.

VARIANTS OF IMPLEMENTATION OF THE INVENTION:
- Instead of having a movable shutter in translation, the valve may have a rotary shutter on the shaft of which can be coupled the sleeve 15, itself coupled to the inverter C.

 - The reverser C can be produced internally by any suitable mechanism other than that of the bevel gears 19, 20 and 21, described above.

 - Manhole 3 and reverser C can be prefabricated in the factory and mounted on the existing valve stems, which avoids sealing the wings 28 on site on manhole 3: civil works are then limited to 'removal of the key mouth giving access to the operating square 1 4 and the release of the volume necessary for the establishment of the frame-reverser assembly.

 - According to the alternative embodiment of FIG. 3, instead of having a parallelepipedal housing 24, an inverter C1 has a generally cylindrical housing 32 of axis YY enveloping the gears 19, 21 and 20. This cylindrical housing 32 is provided with protrusions or bosses 33 with faces opposite planes for guiding on two opposite internal faces of the guide frame 27. The symmetrical bosses 33 offering opposite planar faces could be replaced by flat flanges for fixing a commercial inverter intended to be fixed to a frame, which doesn is not the case of the assembly of the invention. Another reverser adaptable to the assembly of the invention, inside the guide frame 27 may comprise two planar bosses such as 33 and two planar flanges perpendicular to the bosses.

 - According to a variant, in order to enlarge the free space between the guide frame 27 and the manhole 3, instead of having four plane sealing wings 28, the cadreguide 27 can have only two. The two wings 28 can be located on the same side of the frame 27 which is then cantilevered on the manhole 3. The two wings 28 can also be located on either side of a plane of symmetry passing through the axis YY, and symmetrically with respect to the vertical axis YY, a wing 28 extending in one direction a face of the frame 27.

 - According to a variant of guiding the housing 32 relative to the guide frame 27, the flat outer faces of the housing 32 intended to be guided by internal flat faces of the guide frame 27 may be adjacent and perpendicular to each other , instead of being opposite and parallel. This is the case of the face 33 located above or below the axis ZZ in FIG. 3 and the perpendicular face 34 shown in broken lines.

 There can therefore be two, three or four guide faces, depending on the construction of the commercial inverter.

Claims (12)

 1.- Device for operating a valve (1) with an operating rod (11) with an anti-clockwise closing direction of rotation, that is to say opposite to the direction of rotation of the hands of a clock, and manually controlled by means of a movable key (29) for operating at the end of a rod (30) actuated by a lever or handwheel (31), characterized in that it comprises between the operating rod (11) the valve (1) and the movable key (29), a reversing mechanism (C, C1) of direction of rotation coupled in a removable manner, on the one hand to the operating rod (11) of the valve (1), d on the other hand with the mobile key (29).  2.- Device according to claim 1, characterized in that the inverter (C, C1) comprising an input shaft (17) of anti-clockwise closing direction of rotation (FAH) like the operating rod (11) when coupled to it, and an output shaft (22) of direction of rotation (FSH) according to the hands of a clock, for closing the valve (1), comprises at the ends of the shafts (17) and ( 22) respectively operating squares (16) and (23) capable of being coupled respectively to the sleeve (15) and to the key (29).  3.- Device according to claim 1, characterized in that the inverter (C, C1) is housed and guided vertically inside a guide frame (27) itself sealed in a manhole (3) under which the valve (1) is placed.  4.- Device according to claims 1 and 3, characterized in that the inverter (C) has a housing (24) parallelepiped provided with four planar faces (25) and (27a) external guided by the corresponding internal planar faces of the frame -guide (27) also parallelepiped, with a small clearance between, on the one hand the outer faces (25, 27a) of the housing (24) and, on the other hand the lower faces of the guide frame (27).  5.- Device according to claims 1 and 3, characterized in that the inverter (C1) has a cylindrical housing (32) comprising two symmetrical bosses (33) with opposite planar guide faces with little play against two opposite inner faces of the guide frame (27).  6.- Device according to claims 1 and 3, characterized in that the inverter (C, C1) is guided vertically inside the guide frame (27) by at least two outer faces of guides (25, 27a, 33, 34).  7.- Device according to claim 3, charac terized in that the guide frame (27) is sealed in the manhole (3) by at least two planar wings (28) parallel extending two opposite planar faces of the parallelepipedal guide frame ( 27).  8.- Device according to claims 3 and 7, characterized in that the guide frame (27) is provided with four parallel planar wings for support and sealing (28) forming a sort of H with the parallelepiped frame.  9.- Device according to claims 3 and 7, characterized in that the guide frame (27) is provided with two parallel flat wings (28) located on the same side of the guide frame (27) mounted in cantilever on the manhole (3).  10.- Device according to claims 3 and 7, characterized in that the guide frame (27) is provided with two parallel flat wings (28) located on either side of a plane of symmetry passing through the axis of symmetry (YY) of the guide frame (27) one wing (28) extending in one direction one face of the frame (27), and the other wing (28) extending in opposite direction the opposite face of the frame (27).  11.- Device according to claim 2, characterized in that the coupling sleeve (15) of the operating rod (11) of the valve (1) and the input shaft (17) of the reverser (C, C1), is crossed by two pins (18) for holding in translation, also passing through a square (14) for operating the rod (11) and a square (16) for operating the input shaft ( 17).  12.- Device according to claims 1 and 2, characterized in that the operating rod (11) of the valve (1), the input shaft (17) of the inverter (C, C1) and the output shaft (22) of the inverter (C, C1) have a vertical common axis (YY).