FR2582749A1 - Starter-connector for progressively pressurising pneumatic installations - Google Patents

Abstract

Starter-connector for progressively pressurising pneumatic installations and being installed downstream of a circuit breaker. It comprises, in a body 1, a movable member 10 made in one piece, closing off at rest, by means of one of its ends forming a valve 11, a seat 11a controlling the full flow rate of the fluid from the inlet 26 to the outlet 27. As soon as it appears at the inlet 26, the fluid is directed, at a reduced flow rate, through a flow rate limiter 5 branching off the valve 11-11a towards the outlet 27 and progressively fills the installation. The valve 11 is closed by the force from a spring 15, to which is added that of the pressure at the inlet being exerted on a section of piston 14 at the other end of the movable member 10. The increasing downstream pressure is exerted on an intermediate section of the movable member 10 forming a piston 12 having a larger diameter than the piston 14. The displacement of the movable member driving the passage of the full flow rate takes place when the force from the downstream pressure on the piston 12 exceeds the combined forces from the spring 15 and from the piston 14. A screw 19 makes it possible to modify the downstream pressure threshold opening the valve 11, by adjusting the force from the spring 15. Application to pneumatic technology.

Description

After the pressure has been vented in a pneumatic installation, the keel cylinders may have left their initial position; a sudden re-pressure then causes these cylinders to move too quickly, which violently strike their end of travel stop. To avoid this phenomenon by protecting & both the personnel and the mechanical organs, there are different devices for progressive pressurization called starters "; when pressurized by opening the disconnector, the flow passes through a restriction of the starter in relation to the installation which gradually fills; the displaced cylinders return to their initial position & slow speed. Depending on the devices, this filling speed is adjustable or not. When a certain level or threshold of pressure is established in the installation, the starter opens at full flow and start-up can take place. These devices differ mainly from each other only by the technique, nt complex, by which full flow is established. In most known devices the full flow threshold is determined during construction; if it is low, the filling time will be all the shorter but some loaded cylinders will not benefit from the slow rise in pressure; if it is high, on the contrary, all the cylinders may be protected but at the expense of a longer waiting time before starting up. All known devices are intended to protect the entire volume of an installation whereas, frequently in large installations, only certain cylinders would be individually protected and advantageously according to their own characteristics.

These same devices only deliver a signal at the end of pressurization, authorizing the start-up, for example, only by adding additional components which increase the cost. Finally, their assembly requires the use of fittings for pipes.

 The object of the present invention is to offer very compact and inexpensive devices, presenting themselves in the form of fittings which they replace, allowing according to the modals to adjust the filling speed and the full opening threshold. Depending on the technology of the invention, the starter connector can be used for the protection of an entire installation or only certain cylinders which it comprises; it delivers, at the end of filling, a maintained signal, pneumatic or electric, without the addition of auxiliary equipment.

 According to the invention, the starter connector receives, between the operating pressure from the outlet of a disconnector, and directs the fluid at its outlet towards the installation or towards the inlet of a distributor. mobil @ unit in one piece moving along its longitudinal axis and one end forming a valve comes, at rest and during filling of the installation, to close a seat controlling the full passage of the flow from its inlet to its outlet. The application of this valve on its seat is ensured, in the absence of pressure at the inlet, by a compression spring between the body of the device and the movable member the arrival of the pressure at the inlet, which is directed towards the outlet of the device through a flow restriction established bypassing the valve, reduced flow gradually filling the installation. As soon as it appears at the inlet, the operating pressure is exerted on the one hand on the ee- tion offered by the valve on its seat in a force which tends to open it, and on the other hand on a piston-forming section at the other end of the movable member, at least as large as the section of the valve, in a force which opposes the opening of the valve and which adds to the force of the spring. The movable member comprises a section forming a piston intermediate between the valve and the piston at its other end, the section of which is less than it. This large piston section is directly subjected at the pressure of the fluid downstream of the valve and consequently & the increasing pressure qti is established there by the reduced flow; the opening of the valve by displacement of the movable member takes place when the downstream pressure is exerted on the intermediate piston produces an iorce greater than the total of the iorces of the spring and that of the upstream pressure exerted on the end piston. This downstream pressure threshold determining the opening of the valve depends on the ratio between the diameters of valve and two pistons, as well as force of the return spring in closing of the movable member; these diameters being defined by construction, the opening sauce can be corrected by adjusting the force of the spring, and being able to vary for example from 50 to 80% of the p @ entrance session.

 When the pressure disappears at the inlet of the device, the flow flowing to the atmosphere from its outlet at its inlet, continues to exert on the intermediate piston of the movable member a pressure which to keep the valve open, must balance the force of the return spring. In models of starter fittings whose opening threshold at full flow is not adjustable, the fixed force given to the spring is as low as possible and fair sufficient to overcome the sliding indications of the movable member and ensure at rest a tight closure of the valve on its seat; in these conditions at the time of the purge, the emptying of the installation is done almost entirely at Through the open valve, a low residual pressure quickly completes venting through the flow restrictor. In the models of starter fittings whose opening threshold at full flow must be able to be increased compared to the basic value given to him by cons- trick This elevation is effected by an increase in the force of the spring using a screw; the purge is carried out as in the models & fixed threshold, but to avoid too long a wait which would result from the purge of a higher residual pressure through the flow limiter, a free valve opening in the outlet direction towards between is arranged in bypass of the valve.

 The chamber between the intermediate piston and the end piston of the movable member is open to the atmosphere @@ sphere by a vent and, in the valve closed position, on an orifice opening outside the apparatus and able to be connected to a pipe. The position of this orifice in the wall of the chamber of the intermediate piston is such that the valve having opened and the seal of this piston having then passed it. , it receives the pressure passing through the device to be used as the signal for the end of pressurization. After a purge, the valve having closed, this orifice is in the atmosphere by the wind.

 Other characteristics and advantages of the invention will be better understood on reading the description which follows of several embodiments and with reference to the accompanying drawings.

 b Pig I is a thematic representation @ of the principle of the connector-starter according to the invention and of its location between the output of a disconnector 40 and a pneumatic installation in which there are two distributors 50 and 60 controlling the jacks 5I and 6I. The starter-connector I is connected by its between 26 to the output of the disconnector 40 and by its output 27 to the common supply of distributeiro 50 and 60.

When the pressure arrives, it can only pass through the starter connection through a flow limiter 5 controlling the passage of a channel 6 established bypassing a valve II which is normally closed on its seat IIa .Ba valve II is constituted by the end of a movable member I0 in one piece, capable of moving along its longitudinal axis. It is applied to its seat 11a by the force of a return spring I5 transmitting its force to the movable member by pressing on the bottom 20 closing the body I of the apparatus. To the force of the spring I5 is added that of the pressure at the inlet driven into the chamber 2I, by a channel 22, in which evolves a piston section I4 formed by the end of the movable member opposite to the valve II and larger than it. An intermediate section of the movable member I0 forming a piston 12 delimits the cylinder in which it slides sealed in two chambers 23 and 24. The chamber 23 is open on the output 27 of the device, we have al of valve II. Chamber 24, delimited by the space between the pistons I2 and
I4, is open to the atmosphere by a vent I6. The pressure which rises in the installation and in the chamber 23 by the reduced flow rate passing through the limiter 5, is exerted on the face of the piston I2 and tends to push the movable member I0 into @ valve opening
II.This opening takes place when the force applied to the piston I2 becomes greater than the combined force of the spring I5 and the upstream pressure exerted on the piston I4.The valve II having opened, the operating pressure at inlet of the device, higher than the downstream pressure that caused it to open, keeps it open irreé@rsible.Orifice 28 is made in the wall of the cylinder of the piston I2 so that the valve II being closed, it is in the chamber 24 open to the atmosphere by the front I6 and that the valve being open @, it is isolated from the atmosphere by the piston I2 and receives the pressure of the fluid passing through the device in the chamber 23 this pressure signal indicating the end of pressurization.

 At the disappearance of the operating pressure at the inlet 26, caused by a purge action of the disconnector 20, the fluid admitted into the installation escapes in reverse through the starter valve of its outlet. 27 & its inlet 26; this exhaust pressure continues to act on the section of the piston I2 to keep open the full passage of this flow through the valve II-IIa, until the force it generates becomes lower than that of the spring I5. At this point the movable member I0 is pushed back when the valve II is closed and the low residual pressure downstream completes to flow through the limiter 5.

If you call /: PE the pressure at input 26
PS the pressure at the outlet 27
SII valve section II-IIa
SI4 the piston section 14
SI2 the piston section I2
and FR the force of the spring 15, the opening of the valve II at full flow will take place at the balance of forces according to the formulas
PE (SI4-SII) + FR = PS (SI2-SII)
The closing of valve II to the purge will take place at the balance of forces according to the formula
PS (SI2-SI4) = FR
Pig 2 is a sectional view of an embodiment of a starter-fitting according to the invention. The inlet 26 and outlet 27 orifices are fitted with a so-called "instantaneous" pipe connection cartridge. tubular 33 having at one end a smooth tip can engage in one or the other of these orifices and allows by its other end to fix the device & a fixed pneumatic component such as a disconnector or a distributor in which it is screwed The pressure at the inlet 26 is conducted in the chamber 21 of the piston I4 by a channel 22 passing axially through the moving member IO. The piston I4 is formed by the male end of the movable member and commits to sealing in the chamber 21 made in the plug 20 closing the device. The spring I5 is contained in the channel 22 and is supported by a. firstly on a narrowing of this channel and secondly on the plug 20 at the bottom of the housing 2I. By screwing the plug 20 into the body I of the device, the force of the spring 15 can be adjusted to modify the valve opening threshold II. The movable member I0 occupies a position axially perpendicular to the inlet and orifice ports. A screw 5 constituting the filling flow limiter, controls a passage 6 leading the fluid from the entry 26 to chamber 23; on a generator it has a flat or groove whose depth is increasing over its length. The life 5 is coaxial with the entry orifice 26 and is screwed using a tool inserted into this orifice after cutting off the air and disconnection of the piping or accessory 33;; this arrangement avoiding any adjustment by non-competent persons. A non-return valve 32 is established bypassing the valve II-IIa and opposes the passage of the fluid in the inlet to outlet direction and opens in the opposite direction. The orifice 28 @ for taking the pneumatic signal for the end of ease of pressure and provided with an external thread allow the fitting of a fitting.

 Fig 3 is a sectional view of an embodiment according to the invention. It differs from the device previously described using Fig 2, mainly by the fact that the chamber 21 is practiced in the movable member. by an XlargiBee- ment of the channel 22 ;; in this chamber 2I penetrates the sliding piston I4 contitué by the internal extension of a screw I9 which travéré the cap 20 and on which the spring I5 which it allows the adjustment .The plug 20, pierced with the vent I6, maintains in poeition a fitting 28aorientable one rotates around the cylindrical part of the device containing the movable member I0, fitting which leads outside the end of setting signal pressure.

 Fig 4 is a sectional view of an embodiment according to the invention. It differs from the device previously described according to Fig 3, by its plug 20 which contains an electric microswitch 29 whose pusher is actuated by the movable orifice I0 when the valve II-IIa is open.

Fig 5 is a sectional view of a connector-starter according to the invention. The body of the device consists of two parts I and the assembling of waterproof baleen; Part I contains the orifice inlet 26 with external thread, the spring I5, the movable member I0 and the signal transmission orifice 28. The part la contains the outlet orifice 27 fitted with a cartridge with instant connection, the seat of valve IIa and the screw 5 for adjusting the filling flow. Inlet 26, the spring I5, the movable member I0, the screw 5, the seat IIa and the outlet 27 are on the same longitudinal axis. The channel 22 passing through the movable member I0 axially and right through allows the passage of the full flow of the fluid and its diameter is that of the nominal passage of the device * A spring I5 rests on the one hand on a shoulder of the chamber 21 directly in connection with the inlet 26 and on the other hand on a shoulder of the channel 22. The movable member is applied by the edge of the end of the channel 22 f valve valve
II on a rubber washer carried by the part Ia of the body and forming the seat IIa. The screw 5 coaxial with the seat IIa allows the adjustable passage of the fluid at reduced flow rate from the channel 22 & the chamber 23.Channels 27a practiced at the periphery from seat IIa connect chamber 23 to outlet 27. Chamber 24 is & BR <the atmosphere through the vent I6 in the body IA the arrival of pressure & inlet 26, the valve is closed and the fluid flows at a reduced flow rate towards the outlet 27 through the groove of the screw 5. The increasing pressure downstream is exerted on the piston I2 more and more strongly until causing the displacement of the movable member I0 the full flow then passes through the device from the inlet 26 to the outlet 27 successively through the channel 22, the chamber 23 and the channels 27a. The pneumatic signal appears & BR <the orifice whose external thread allows the mounting of 'a fitting.

 Figs 6 and 7 are sectional views of two starter couplings according to the invention and more particularly of tines to be screwed by their outlet orifice 27 on the supply inlet of a pneumatic distributor. differ from the model previously described according to FIG. 5 by the fact that their inlet and outlet orifices are in orthogonal axial directions, that the flow limiter 5 is a calibrated nozzle and that they do not include any adjustment of the force of their spring 15.

In the embodiment illustrated in FIG. 6, the part
I of the body of the device contains the inlet 26 equipped with a cartridge with instant connection, the spring I3, the movable member IO;
The party. constituting the output 27 is a hollow screw around which the part I which is axially perpendicular to it is oriented; this hollow screw is fixed in a suitable aperture of a receiving pneumatic component. Channels 27a peripheral to the rubber washer constituting the seat tIa lead the full flow of fluid from the chamber 23 to the outlet orifice 27.

 In the embodiment illustrated by Pig 7, part I of the body contains the outlet orifice 27, the external thread of which makes it possible to fix the device to a receiving component, the calibrated restriction 5, the seat IIa, the movable member I0 and the spring I5 which rests on the bottom of the plug Ia closing the device. An element Ib which can be rotatably sealed around the plug Ia contains the inlet port 26 fitted with a cartridge with instant connection and in direct connection, through holes in the wall of the plug Ia, with the chamber 2I.

 Of course, the invention is not limiting and those skilled in the art may make modifications to it without departing from the scope of the invention.

Claims (7)

CLAIMS I- Starter-coupling for progressive pressurization of pneumatic installations, mounted between the shut-off valve and the installation, characterized in that it is present in the form of an element allowing the connection of two pipes to one another or from a pipe to a pneumatic component; that it has an inlet (26) and an outlet (27), the full passage of the fluid being established from one to the other by means of a valve (II) closing its seat at rest (IIa). The valve (II) is formed by one end of a movable member (I0) able to move along its longitudinal @ nal axis, in one piece located in its entirety one m * next to the seat (IIa) and constantly applied to the closing of said valve (II) by a spring (I5). Said movable member (I0) has along its length two different sections of piston subjected to the pressures of the fluid. The apparatus also comprises a means of progressively filling the installation connected to its outlet (27) from the appearance of the pressure at its inlet (26); the means for opening the valve (II) when a pressure level predetermined by construction or by adjustment is reached downstream to deliver a pneumatic or electric signal to this inetantpet the means of allowing the purging of the installation & the disappearance of the pressure at its inlet (26). 2- starter coupling according to claim I, characterized in that said means for controlling the opening of the valve (II? Eomprennentsun piston (I4) constituted by the end mftle of the movable member (I0) opposite the valve ( II) sliding in leaktight manner by a seal in a cylindrical chamber (2I) formed in the bottom (20) of the device and the diameter of which is equal to or greater than the passage diameter of the valve (II-IIa): : a piston (I2) secured to the movable member (I0), located between the valve p- (II) and the piston (I4) and whose diameter is larger than that of the piston (I4). separates the cylinder in which it slides in leaktight fashion by a seal in two chambers (23) and (24) The chamber (23) formed between the valve (II) and said piston (I2) is open on the outlet (27). The chamber (24) between said piston (I2) and the piston (I4) whose inactive faces are opposite, is connected to the atmosphere by a vent (I6). The chamber (2I) of the piston (I4) is in connection with gold input ifice (26). 3- starter coupling according to claim 2, characterized in that the movable member (I0) has its end opposite the valve (II) a cylindrical chamber (2I) in which penetrates in sliding sliding by a seal, a end-piece carried by the bottom (20) and constituting the piston (I4) 4- Starter-fitting according to claim 2, characterized in that the connection between the inlet (26) of the device and the chamber (2I) of the piston (I4) is provided by a channel (22) formed in the axis of the movable member (I0) and traversing it right through. 5- Starter coupling according to claim. I and 4, characterized in that said channel (22) contains the return spring (I5) for closing the valve (II). 6- starter coupling according to claims 1,2 and 5 characterized in that the means for adjusting the downstream pressure level determining the opening of the valve (II) is constituted by the bottom (20) on which the spring (i5) and able to be screwed manually at will into the body (Z) of the device. 7- Starter coupling according to claims I, 3 and 5, characterized in that the means for adjusting the pressure level downstream determining the opening of the valve (II) and formed by a screw (I9) whose end piece internal forms the pinton (I4) engaging in the chamber (2I) of the movable member (I0) and on which the spring (I5) rests; said screw (I9) is capable of being screwed manually by the exterior at the bottom (20). 8- Connection-start @ r according to claims I, 2 and 4, characterized in that the channel (22) passing right through the movable member (I0) is of sufficient diameter to @duct the fluid to the full One end of the movable member (I0) constitutes by the circular edge of the channel (22) the valve (II) resting on a flat rubber seal form the seat (IIa); the other end of the movable member (I0) censtitutes the piston (I4) which slides in its chamber (2I) in direct connection with the inlet (26) of the device. 9- Starter coupling according to claims I and 2, characterized in that the cylinder wall in which @@ ulisse the piston (I2) is pierced with a hole (28) opening to the outside through an orifice (28a) The position of this hole (28) is such that the valve (II) being closed, the orifice (28a) is to the atmosphere through the chamber (24) through the vent (I6) and that the valve (II) being open the orifice (28a) eat open on the chamber (23) under pressure, the seal of the piston (I2) having exceeded the hole (28). IO- Starter-fitting according to claims I and 2, characterized in that the bottom (20) of the device contains an electrical contactor, the pusher axially parallel to the movable member (I0) enters the chamber (24 ) and is actuated by the pressure-free face of the piston (I2) when the valve @ (II) is open. II- Raccor @ - starter according to claim I, characterized in that a screw (5) coaxial with one or the other of the orifices (26) or (27) and accessible in rotation & by means of a tool by this orifice, controls the passage of the reduced flow rate in a channel (6) connecting these two orifices and that this screw (5) comprises on at least one generator a groove or a flat whose radial depth is progressively increasing. I2- Starter coupling according to claim I, characterized in that it comprises a unidirectional valve (32) established in derivation of the valve (II-IIa), ensuring the passage of the fluid in the direction of the outlet (27 ) towards the entrance (26) and prohibiting it in the opposite direction. I3- Starter coupling according to claim I, characterized in that its orifices (26) and / or (27) are equipped with so-called "instant connection" cartridges into which penetrate either pipes or the cylindrical end piece d 'a tubular accessory (33) which presents at its other end a male thread Weaving in the orifice of a pneumatic component.