RU2213600C1 - Locking-trigger device - Google Patents

Abstract

FIELD: fire engineering equipment, particularly outlet valve devices for fire- fighting systems carrying out independent spraying of fire-extinguishing substance which is stored under pressure into vessel. SUBSTANCE: locking-trigger device comprises central hollow rod with disc valve communicating inlet and outlet vessel orifices for sealing vessel with pressurized gas or liquid fire-extinguishing substance. The other rod end is situated into working chamber having drainage channel and is finished with spring-loaded piston. Piston hollow is sealed by valve with locking member. Valve interacts with trigger means push element. Valve closing piston hollow is in the form of diaphragm, working chamber drainage channel is closed with sealing mechanism, trigger means push element is made in the form of hollow knife, axially moving support is installed above ball of sealing mechanism. EFFECT: increased functional reliability and fire-fighting effectiveness along with enhanced operational safety. 3 cl, 3 dwg

Description

 The invention relates to fire fighting equipment, and in particular to an outlet valve device installed on fire extinguishing systems with an autonomous sprinkler of a fluid extinguishing agent stored in a container under pressure.

 The prior art in this area is characterized by the design of the locking and starting device of the fire extinguishing system described in Swiss patent N 633720, A 62 C 37/06, publ. 12.12.82, which contains a housing connected to the inlet channel with a container of a fluid extinguishing agent in a container under pressure, and with a sprinkler by means of an outlet window, which are hermetically closed by a step hollow piston loaded by the working body of the shut-off chamber communicating through a drain throttling channel with brittle the membrane of the trigger mechanism.

 In the position of official storage of the extinguishing agent, the step piston is pressed against the ledge of the housing, blocking the outlet window, due to the excess of the force from the pressure of the working fluid in an isolated shut-off chamber on the upper end of the piston, whose area is larger than the valve area. At the same time, the piston disc valve is automatically pressed against the valve seat made in the housing.

 The disadvantage of this design is the inertia of commissioning, determined by the time required to displace the working fluid from the shut-off chamber through the throttling drain channel that communicates after the membrane is destroyed, which is a limitation for the use of this device when extinguishing flammable liquids due to the rapid development of a fire.

 In this case, there is an irrational loss of fluid extinguishing agent through the hollow piston and the drain channel of the trigger mechanism.

 The noted drawbacks are eliminated in the valve mechanism of the fluid flow control device according to the patent CH 654888, F 16 K 1/36, 1986, containing a central hollow stem equipped with a poppet valve for communicating the inlet and outlet openings of the housing for sealing a pneumatic or hydraulic fire extinguishing agent in storage tanks under pressure. At the other end of the central hollow rod, a spring-loaded piston is installed in the working chamber having a drainage channel, the cavity of which is closed by a valve equipped with a locking element and interacting with a trigger mechanism pusher, in particular with an electromagnet armature.

 The main advantage of the known device is its speed, since when the trigger is triggered, the valve that locks the central cavity of the piston opens to fill the working chamber with extinguishing agent, the pressure of which moves the rod down and opens a poppet valve of the housing outlet smaller in contact area than the piston area. Through the communicating inlet and outlet openings of the housing, a fire extinguishing agent is supplied from the storage tank to the source of ignition by means of a spray nozzle.

 It is important that the working movement of the poppet valve (sensitive element of the piston) occurs towards the flow of the extinguishing agent, damping the starting transition processes, therefore, in the known device there are practically no hydraulic shock and dynamic loads.

 Under conditions of storage through the drainage channel of the working chamber, leaks of extinguishing agent that may occur through movable valve seals are discharged into the atmosphere. This prevents an increase in pressure over time and a boost sufficient for a false triggering, reducing the loss of an expensive extinguishing agent, such as refrigerant.

 However, a continuation of these advantages is unsatisfactory functional reliability with relatively large leaks of extinguishing agent over a long (up to 10 years) operating time. Therefore, operating costs for monitoring and periodic refueling of the known device in fire extinguishing modules are increased, since according to the requirements of NTB 88-2001 refueling of a gas extinguishing agent is carried out with a decrease in its weight by 5%.

 Another disadvantage of the known device is the incompleteness of the release of the extinguishing agent, because the working position of the rod is not fixed, but varies and depends on the dynamically changing ratio of forces on the piston from the opposite sides: as a result, when the elastic force of the compressed spring exceeds the load from the incident pressure of the consumed extinguishing agent, a poppet check valve closes the outlet of the housing when the piston moves to its original position.

 The problem, the solution of which is the basis of the present invention, is to increase the efficiency of fire fighting and functional reliability of the device while reducing operating costs.

 The required technical result is achieved in that in a known locking and starting device containing a central hollow rod equipped with a poppet valve for communicating the inlet and outlet openings of the housing for sealing a pneumatic or hydraulic fire extinguishing agent in a pressure storage container, at the other end of which in a working chamber equipped with a spring-loaded piston is installed in the drainage channel, the cavity of which is closed by a valve equipped with a locking element and interacting with the pusher the trigger mechanism, according to the invention, the locking element of the central cavity of the piston is made in the form of a membrane mounted above the check valve, and a shutter mechanism is mounted in the drainage channel of the working chamber, the trigger mechanism pusher is made in the form of a hollow knife, and above the ball of the shutter mechanism of the drainage channel of the working chamber is installed emphasis with the possibility of axial movements.

 Distinctive features ensured an increase in the efficiency of the device due to the complete ejection of the extinguishing agent during automatic isolation of the working chamber with a shutter mechanism of its drainage channel and a non-return valve of the piston cavity, which overlap the chamber volume from the atmosphere and expended extinguishing agent under pressure, respectively, which ensures that the inlet communication valve and outlet openings of the housing, which are not affected by pressure and force changes in operation on the opposite ends of the rod, on the poppet valve and piston, as well as the return force of the spring on its piston.

 The implementation of the locking element in the form of a membrane hermetically fixed in the Central cavity of the piston rod, virtually eliminates leakage of extinguishing agent, which allows it to be used in fire safety systems without refueling the storage tank for a specified period.

 The proposed shutter mechanism of the drainage channel prevents irrational leakage of the extinguishing agent from the working chamber when the extinguishing agent is intensively fed into it through an opening in the membrane pierced by a hollow knife when the trigger mechanism is triggered.

 Equipped with a movable stopper of the shutter mechanism of the drainage channel of the working chamber, it is possible to manually safely open its ball valve for the subsequent safe dismantling of the housing cover necessary for reuse of the device.

 Therefore, each essential feature is necessary, and their combination in a stable relationship is sufficient to achieve inherent in the disunity characteristics of the novelty of quality as an effect of the sum, not the sum of the effects.

The invention is illustrated by the drawing, which has a purely illustrative purpose, without limiting the scope of the rights of the aggregate of essential features of the formula, and where are shown:
figure 1 is a longitudinal section of the proposed device;
figure 2 is the same in the working position;
figure 3 - bolt mechanism of the drainage channel.

 In the cylindrical body 1 of the device (Figs. 1 and 2), a hollow rod 2 is mounted coaxially in the center, at the lower end of which a poppet valve 3 for connecting the inlet and outlet to the sprayer (not shown conditionally) holes 4 and 5, respectively.

 The housing 1 by means of a threaded fitting 6 is mounted on the storage tank of a fluid extinguishing agent under pressure.

 At the upper end of the rod 2, a hollow piston 7 is fixed, located in the working chamber 8, which is loaded with a spring 9. In this case, the poppet valve 3 rests on the ledge 10 of the housing 1 and blocks the message of the holes 4, 5 (Fig. 1) in the initial position and during the service device storage.

 A ball 11 is placed in the cone of the central cavity of the piston 7, which performs the function of a check valve in operation. The central cavity of the piston 7 above the ball 11 is closed by a hermetically sealed membrane 12 (locking element), the axial of which is the hollow knife 13 (pusher of the trigger mechanism) mounted on the slider 14 of the cylindrical chamber 15, made in the cover 16, rigidly connected with the housing 1 and closing the working camera 8.

 On the lid 16 there is a pyrotechnic charge 17 adjacent to its cylindrical chamber 15. The pyrotechnic charge 17, the slider 14 of the chamber 15, carrying the hollow knife 13 together represent a trigger mechanism. Coaxial to the slider 14 in the cover 16 is mounted a pusher with a lever for a manual drive (not shown).

 In the cover 16 there is a drainage channel 18 in communication with the working chamber 8, in which the shutter mechanism 19 is mounted.

 The shutter mechanism 19 (Fig. 3) comprises a tubular body 20, in a conical bore 21 of which a ball 22 is placed, which acts as a valve. At the exit of the tubular body 20 with the possibility of axial movements installed with a guaranteed clearance of the rod stop 23.

 Pneumatic or hydraulic fire extinguishing agent in the storage tank under pressure is charged through the outlet 5 of the housing 1 of the proposed locking-starting device. In this case, the injection flow of the extinguishing agent forces the poppet valve 3 from the ledge 10 of the housing 1, moving the rod 2 down and by means of the piston 7 compressing the spring 9.

 After filling the tank with fire extinguishing agent under the action of the spring 9, the piston 7 with the rod 2 returns to its original position, while the poppet valve 3 is installed on the ledge 10 of the housing 1, blocking the message between its openings 4 and 5. The poppet valve 3 reliably seals the pressure extinguishing agent pressure storage capacity.

 The working chamber 8 is isolated from the storage capacity by the membrane 12, and the ball 11 under the influence of gravity is at the bottom and locks the conical seat of the axial channel of the rod 2.

 Then, a pipe with a spray nozzle is connected to the outlet 5 of the housing 1 - the device is ready for operation.

 In storage mode, minor leaks of extinguishing agent enter the working chamber 8 and then through the drainage channel 18 of its cover 16 through the tubular body 20 of the shutter mechanism 19, bypassing the ball 22 in the bore 21, are discharged into the atmosphere. The pressure increase in the working chamber 8 does not occur.

 The proposed locking and starting device works as follows. An electric pulse of a fire alarm or from the operator’s control panel ignites a pyrotechnic charge 17 that generates gases entering the cylindrical chamber 15 of the cover 16, which push the slider 14 with the knife 13 to the membrane 12.

 The same movement of the slider 14 with the knife 13 is obtained from the manual lever drive by the operator.

 The membrane 12 is punched with a knife 13, through the longitudinal cavity of which the working chamber 8 is switched through the cavity of the piston 7 and the rod 2 with the storage capacity of the extinguishing agent under pressure. When this fluid extinguishing agent, bypassing the ball 11, enters the working chamber 8, which leads to a sharp increase in pressure.

 Due to the difference in the efforts of the total pressure of the extinguishing agent on the opposite ends (the area of the piston 7 is larger than the area of the poppet valve 3), the rod 2, compressing the spring 9, smoothly moves downstream (Fig. 2) and connects the inlet 4 of the housing 1 with its outlet 5, through which a fluid extinguishing agent enters the source of ignition, where it suppresses a fire.

 In this case, the ball 22 of the shutter mechanism 19 under the action of a sharp increase in pressure in the chamber 8 moves up the bore 21 of the tubular body 20, blocking communication with the atmosphere, and the ball 11 of the check valve of the piston 7 is lowered by its own weight and covers the central cavity of the rod 2. Thus , the working chamber 8 is automatically isolated from the atmosphere and inlet channel 4 of the housing 1, the consequence of which is the invariability of the working gap 24 (figure 2) between the poppet valve 3 and the ledge 10 of the housing 1 until the fire is completely released aschego substance from the storage container.

 To replace the membrane 12 after the end of the supply of extinguishing agent, it is necessary to dismantle the cover 16, which is under pressure from the insulated chamber 8. The operator manually depresses the working chamber 8, for which the ball 22 (Fig. 3) is squeezed from the conical bore 21 by means of a threaded feed of the rod stop 23 along tubular body 20, communicating the channel 18 with the atmosphere. In the resulting gap of the shutter mechanism 19 between the ball 22 and the conical bore 21, the extinguishing agent under excess pressure and the piston 7 supplied to the initial (Fig. 1) position by the expanding spring 9 is removed from the working chamber 8 through the drainage channel 18 through the tubular body 20 .

 Then you can safely disassemble the device manually, inspect, prophylactically repair and prepare it for reuse.

 The proposed locking and starting device is additionally characterized by increased tightness of insulation of the extinguishing agent when stored under pressure due to the use of a rigidly fixed membrane 12 as a locking element of the check ball valve 11 of the hollow piston 7 of the working chamber 8. This ensures the annual leakage of the gas fire extinguishing agent through the locking and starting device less than the established airbag 54-2001 limit of 1%.

 A comparative analysis of the proposed locking and starting device with identified analogues of the prior art, from which the invention does not follow explicitly for a specialist in fire fighting equipment, revealed that it is unknown, and given the possibility of industrial serial production, it can be concluded that the patentability criteria are met.

Claims (3)

 1. A locking and starting device containing a central hollow rod equipped with a poppet valve for communicating the inlet and outlet of the housing for sealing a pneumatic or hydraulic fire extinguishing agent in a pressure storage container, at the other end of which a spring-loaded piston is installed in a working chamber provided with a drainage channel, the cavity of which is closed by a valve equipped with a locking element and interacting with a pusher of the trigger mechanism, characterized in that the locking element is tral piston cavity formed in a membrane, reinforced over the check valve, and a drainage channel of the working chamber mounted shutter mechanism.  2. The locking and starting device according to claim 1, characterized in that the pusher of the trigger mechanism is made in the form of a hollow knife.  3. The locking-starting device according to claim 1 or 2, characterized in that an emphasis is mounted above the ball of the shutter mechanism of the drainage channel of the working chamber with the possibility of axial movements.

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