FR2589976A2 - Extinguisher valve with permanent fluid pressure - Google Patents

Abstract

Extinguisher valve with permanent fluid pressure comprising a differential piston 7 with a means for connecting the control chamber 8 to the atmosphere so as to ensure the operation of the valve as well as a low-flow rate communication means between the two ends of the differential piston 7, characterised in that the said communication means consists of an axial passage 16 made in the piston 7 and followed by a conical seat 17 interacting with a ball 15 held captive so as to constitute an imperfect non-return valve ensuring the communication of the tank 4 with the control chamber 8 with a very low flow rate, and the reverse communication with a much greater flow rate.

Description

Fire extinguisher valve with permanent fluid pressure.

 This certificate of addition relates to improvements to the fire extinguisher valve described in the main patent.

 The main patent has described a fire extinguisher valve with permanent fluid pressure comprising a differential valve and a control chamber, the setting of which at the atmosphere causes the opening of this valve, with a characteristic lock. blockage capable of acting with significant axial play in a groove of the valve located between the two sealing zones of this valve.

 In the embodiment of the main patent, the differential valve was provided with an axial calibrated orifice allowing the pressure chamber of the control chamber to flow from the reservoir, and moreover allowing the setting of this atmosphere. chamber the lifting of the valve, and during filling of the reservoir the passage of the fluid from the chamber to the reservoir while preventing an exaggerated escape of the fluid between the end of filling and the closure of the chamber, the lock being in the blocking position.

 Furthermore, in this embodiment of the main patent, the placing of the control chamber in the atmosphere was ensured by a control valve normally closing this chamber, with various control modes for setting the atmosphere.

 The purpose of this certificate of addition is to simplify the manufacture of the differential valve, as well as the manufacture of the device for setting the atmosphere, while ensuring improved operation, and in particular by restricting the gas exhaust following filling. .

 The invention consists in arranging in the axis of the differential valve a passage, and a seat for a ball with axial retaining means, to constitute an imperfect non-return valve allowing communication between the tank and the controls only with an extremely restricted flow, while authorizing an unrestricted flow in the opposite direction.

 The invention also consists in replacing the venting valve with a perforable cover, the perforation of which can be ensured directly by pyrotechnic means or indirectly by a mechanical striker with tip itself actuated in various ways by interchangeable devices can combine various operating modes.

Other features of the invention will appear in the following description of an embodiment taken as an example and shown in the accompanying drawing, in which
FIG. I is an axial section of the valve,
FIG. 2 is a cross section along II-II of FIG. 1, and
Figures 3 and 4 are axial sections of two variants of the perforating device.

 FIG. 1 shows the valve body which is screwed, by its threaded end 2, onto the threaded end 3 terminating the tank 4.

This body 1 internally comprises an axial bore 5 in which slides the upper section 6 of larger diameter of the differential piston 7, thus defining above this section the control chamber 8 of the piston. The lower section 9 of the smallest diameter of this differential piston slides in an insert 10 screwed tightly inside the end of the body 1. The usual O-rings ensuring the tightness of these various connections and slides have been represented but not referenced.

 The usual connection nozzle II opens, as in the main patent, into a recess 12 located in the gap between the upper section 6 and the inner section 9 of the differential piston 7 located in its lower position, abutting against the part 10. In addition, as in the main patent, the differential piston includes a groove 13, also located in the gap between the two sections 6 and 9, and into which can be inserted with significant play, a cylindrical lock 14 located at the the interior end of a threaded plug 15 screwed onto the body 1.

 According to the certificate of addition, the differential piston has an axial passage 16 and a conical seat 17 located at the bottom of another axial passage 18 of larger diameter in which a ball 19 is trapped. To prevent this ball from falling downwards, the lower end of the section 9 is extended by an edge 20 which comprises one or more deformations 21 towards the inside preventing the passage of the ball while not opposing the passage of the fluid.

 The cooperation of the ball 19 and of the seat 17 constitutes a non-return valve opposing the passage of the fluid from the reservoir 4 to the chamber 8, but in a relatively imperfect manner so as to nevertheless allow a slight leak which allows in particular to the pressure of the reservoir to gradually build up in the chamber 8 when the latter is closed.

 According to another particular feature of this addition certificate, the chamber 8 is closed using a perforable cover 22 tightly sealed by a threaded plug 23. It suffices to puncture this cover 22 to ensure the setting to the atmosphere of the chamber 8, and consequently the operation of the valve by lifting the differential piston 6. This naturally when the valve is in the normal operating position, that is to say when the latch is removed from the groove 13, by partially unscrewing the plug 15 or by replacing or inverting this plug as in the main patent.

 To ensure the perforation of the cover 22, a pyrotechnic means can simply be used, in the form of an electrical primer 24 housed axially in a threaded plug 23 provided with a communication channel 25 and a passage 26 for the electric supply wires 27. Once the cover 22 has been perforated by the explosion, the pressure of the chamber 8 expands to the atmosphere through a vent orifice 28.

 Instead of this direct pyrotechnic perforation, or in addition to this, an indirect perforation can be provided by means of the sharp point 29 of a striker 30 pushed by a spring 31 and sliding in the bore 32 of a auxiliary body 33 tightly screwed into the body 1 and in the extension of a transverse passage 34, which is located in the axis of the cover 22 and in the extension of the passage 25. This passage 34 communicates itself by an axial orifice 35, followed by another orifice 36 with the bottom of the chamber 8.

 In the axial orifice 36 also open, as can be seen in FIG. 2, passages 37 and 38 making it possible to fix on the body 1 respectively a pressure switch 39 and a pressure gauge 40 which serve to check the pressure of the chamber 8 as in the main patent.

 The retaining of the striker 30 against the thrust of its spring 31 is ensured for example by means of a cable 41 having a fusible part. In addition, the striker 30 includes its own sealing means, and preferably a retaining ball 42 pushed by a spring 43, which makes it possible, by separating the striker 30 proper from the pusher 44 retaining the tension of the spring 31, to be able to also control the striker 30 remotely by a gas pressure not shown opening into the bore upstream of the striker.

 Alternatively, as shown in Figure 3, the auxiliary body 33 can be replaced by a body 33a similar to the previous one, but whose striker 30 is actuated by a punch device 45 whose operation can be checked using of a weight as indicated in the main patent. We can also produce its main trigger using a weight which we ensure release. Again a side passage 46 opens upstream of the striker 30 so as to allow an auxiliary remote triggering by gas pressure.

 Finally, the auxiliary body 33 can also be replaced by another body 33b, as shown in FIG. 4, and in which the striker 30b, still pushed by the spring 31, is pierced with an axial bore 47 in which the end slides. cylindrical 48 of a Bowden cable 49, the sheath 50 of which rests on the body 33b by means of a conventional adjustment device 51. In addition a hole 52 drilled transversely to the striker 30b and opening into the axial bore 47 , allows the ball 42, to ensure permanent locking of the striker as long as this ball is stopped by the cylindrical grain 48. on the contrary a traction on the cable 49, against an additional return spring 53 allows release the striker.

It is therefore this time a pull on the cable 49 which produces the release, and this can be operated remotely by any appropriate manual or automatic means.

 Naturally in the case where the indicated faculty is not used to perforate the cover 22 indifferently by its two faces, it could be mounted in the axis of the body 1, and consequently fix the perforation device also in the axis of the body to simplify it.

 The present certificate of addition therefore allows a simpler embodiment than that according to the main patent, in particular of the differential piston and of the means for venting the control chamber 8, with in addition the possibility of recharging the reservoir with fluid. under pressure after fitting the latch 14 and by unscrewing the auxiliary body 33, 33a or 33b, or even the pressure gauge 44, this in particular in the case of the axial embodiment. This filling is thus carried out by means of the non-return valve 17-19 which practically opposes any significant escape of fluid for the time necessary for the screwing of the withdrawn member. It is the same during maintenance in the event of disassembly for repair or exchange of all the components such as 23, 33, 39 or 40.

In addition, of course, the invention allows all the verifications already indicated in the main patent, in particular the verification of the proper functioning of the differential piston without, however, emptying the reservoir through the use of the lock 14.

Claims (4)

 1. Permanent fluid pressure extinguisher valve comprising a differential piston (7), with a larger diameter section (6) sliding in leaktight manner in a control chamber (8), and a smaller diameter section ( 9) sliding in a lower part (10) communicating with the tank (4) of the extinguisher, with in addition a transverse locking means (14) opening with significant axial play in a groove (13) formed in the differential piston ( 7) between the two end sections (7, 9), and a means for venting the control chamber (8) to ensure the operation of the valve, as well as a means of communication at low flow between the two ends of the differential piston (7),  characterized by the fact that said means of communication is constituted by an axial passage (16) formed in the piston (7) and followed by a conical seat (17) cooperating with a ball (19) closed prison to constitute a non-return valve imperfect ensuring communication from the reservoir (4) to the control chamber (8) with a very low flow rate, and reverse communication with a much higher flow rate.  2. Fire extinguisher valve according to claim 1, characterized in that said means for venting the chamber (8) consists of a perforable cover (22), normally sealingly closing said chamber (8) and cooperating with a means of perforating the membrane.  3. Extinguisher valve according to claim 2, characterized in that the means for perforating the cover (22) is a pyrotechnic means (23, 24) with direct action on the cover (22).  4. fire extinguisher valve according to one of the preceding claims, characterized in that the means for perforating the cover consists of a mechanical striker with a sharp point (29) and forming a sealed piston, this striker being pushed in the direction of the '' seal (22) by a gas pressure (45), or by a manual control (45) or by the fall of a weight, or by a spring (31) and pusher (44) with fuse retaining cable (41 ), or by a spring (31) and a ball lock (42) unlockable (48) by cable pulling (49), or by several of these means acting simultaneously.