RU46939U1 - LOCKING AND STARTING DEVICE - Google Patents

Abstract

The utility model relates to fire fighting equipment, namely to an output device installed on fire extinguishing systems with an autonomous sprinkler of a fluid fire extinguisher, stored in a container under pressure. The locking and starting device comprises a housing connected by an inlet channel to a container of a pressurized fire extinguisher, on the lateral surface of which there is an outlet window to the sprayer, which is hermetically sealed by a telescopic piston, which consists of an outer sleeve and a central step plunger installed with the possibility of relative longitudinal movements, which loaded with a fluid working fluid locking chamber communicating through the drain channel with the membrane of the trigger mechanism, while the outer sleeve The piston is freely mounted on the ledge of the cylindrical cavity of the housing and has an inlet undercut at the end, as well as a longitudinal blind groove where the stop pin is mounted, mounted on a central step plunger equipped with an axial through channel with a throttling hole in the stop, an axial contact seal mounted inside the cover locking chamber. What is new is that the device is additionally equipped with a manual start mechanism communicating with the locking cam via an autonomous drain channel, and the seal is made in the form of a dynamic clamp, which is a fluoroplastic cup congruent with the stop of the plunger mold, having a minimum clearance when combined, and the manual start mechanism is made in the form of a striker mounted in a guide mounted on the lid of the locking chamber, adjacent to a hollow longitudinally movable knife installed

above the membrane that overlaps the autonomous drain channel. The proposed technical solution expands the technological capabilities of the modes and types of start-up and increases the reliability of operation by duplicating automatic start manually. At the same time, the device excludes emissions of the fire extinguisher through the drain channels of the locking chamber. In the device, it is possible to vary by starting, either autonomous automatic or manual, or their sequential action, depending on the technical requirements for the fire extinguishing system.

Description

The utility model relates to fire fighting equipment, namely, to an output device installed on fire extinguishing systems with an autonomous sprinkler of a fluid fire extinguisher stored in a container under pressure.

The prior art of this area is characterized by the device according to the patent RU 2031675, A 62 C 37/00, 1995, containing connected by means of the inlet channel with the capacity (pipeline) of a fluid fire extinguisher, which is under pressure, the housing, on the side of which is located the outlet to the sprayer a window hermetically sealed by a piston loaded with a fluid working fluid of a locking chamber communicating through a drain channel with a fragile membrane of the trigger mechanism.

The disadvantages of the described analogue are as follows.

A limited area of use, because it does not seem practically possible to use it for fire extinguishing systems with an autonomous fire extinguisher capacity without special mechanisms creating an overpressure pulse in the exhaust channel.

Another disadvantage is the use of an additional working fluid, which must first be placed and held in the shut-off chamber by forcibly loading the piston until the opposite pipeline is connected, which complicates the assembly, commissioning and maintenance of the systems.

In addition, an elastic ring cuff breaks off the piston by a pressure pulse in the inlet channel to start the device into operation and the overpressure of the fluid extinguisher supplying the piston, which is carried away by the flow to the nozzle sprinkler, where it blocks its cross-section, reducing or completely ceasing the emission of combustion inhibitors into the source.

During official storage due to leaks of the measured working fluid, leaks of movable joints in the shut-off chamber, the tightness of the outlet windows is impaired, which uncontrollably deactivates the device from readiness for mobile protection of a fire hazardous facility.

The noted disadvantages are eliminated in the locking and starting device according to the patent RU 2213599, A 62 C 37/08, 2002, which is selected as the closest analogue by the number of matching features.

The known device comprises a trigger mechanism mounted on a housing connected by an inlet channel to a container of a pressurized fire extinguisher and a shut-off chamber separated by a telescopic piston, which consists of relative longitudinal movements of the outer sleeve and the central stepped plunger.

On the side surface of the housing there is a window that is outlet to the sprayer, hermetically closed by a piston, which is loaded with a fluid working fluid in the shut-off chamber, which communicates through the drain channel with the membrane of the trigger mechanism.

The outer sleeve of the piston is freely mounted on the ledge of the cylindrical cavity of the housing and has an inlet undercut and a longitudinal dull groin at the end, where a stop pin is mounted, mounted on a central stepped plunger.

Axially contact seal mounted inside the lid of the locking chamber, at the end of the plunger there is a central stop with a throttling hole in the axial through channel of communication with the extinguisher.

In the drain channel of the lid of the shutoff chamber, behind the membrane, an automatic start mechanism is installed, made in the form of a driving hammer or pyro cartridge, triggered by a fire alarm pulse and destroying the membrane for communication

a locking chamber with the atmosphere, which violates the dynamic equilibrium, the use of the actuator element of the device - a plunger that performs the function of a valve gate.

The well-known stand-alone device of simple design is characterized by functional reliability and a long service life.

The telescopic piston serves as an additional step in cocking the device at startup, increasing the accuracy and reliability of the sequential actions of its structural functional elements.

The force closure of the rubber ring cuff in the undercutting of the end of the piston sleeve by the elastic forces of its material and friction after the deceleration time provides the piston with constructive solidity for the central plunger to move the external sleeve and open the exhaust window through which the fire extinguisher is supplied to the sprayer.

The geometric closure of the annular cuff between the plunger and the piston sleeve prevents the possibility of mechanical breakdown, thereby eliminating unauthorized ejection of the cuff through the window to the nozzle nozzle.

Equipping the plunger with an axial channel automatically fills the shut-off chamber with a fluid fire extinguisher, where it performs an additional function of a working volume of a given volume for holding the piston in a tight shut-off position by the outlet bushing due to the difference in the area of the ends of the stepped plunger, since this creates a hydrodynamic clamp of the piston to the ledge corps.

The persistent finger holds the sleeve behind the blind longitudinal groove from reactive reverse movement upon impact of the plunger stop in the contact seal of the closure chamber cover.

The emphasis of the larger end face of the plunger has a significantly smaller contact

area, which increases the clamping force from the pressure of the extinguisher on the lower plunger body, and therefore, the discharge of the extinguisher through the drain channel into the service area is prevented.

The throttle of the axial channel of the plunger on the side of the locking chamber serves to create local hydraulic resistance when the fluid extinguisher is blocked from the tank through the exhaust channel.

The elastic seal of the locking chamber is a damper for absorbing the energy of movement of the piston after the destruction of the membrane of the trigger mechanism or the compensator of the vibrations that are harmful for isolating the working volume of the device.

The direct connection of the fragile membrane of the drain channel of the shut-off chamber with the automatic start-up mechanism increases the functional reliability and efficiency of the precise actuation of the shut-off device for remote opening of the end part of the fire-fighting pipe or tank with a pressurized fluid fire extinguisher.

However, the known locking and starting device has the following disadvantages:

firstly, the functional reliability is directly determined by the likelihood of electrical activation of the external start-up control system, so if it is collected, the fire extinguisher is not supplied to the consumer from the tank blocked by the piston;

secondly, when the piston of the lid of the closure chamber is dynamically fed to force close the end stop with the contact seal, the plunger reactively reverses in the form of its rapidly damped vibrations, in which there is a gap into which the fire extinguisher is forced out further into the service area, which is undesirable, and sometimes unacceptable.

The task, which the real utility model is aimed at, is the elimination of the deficiencies to improve the functional

the reliability of the locking trigger.

The required technical result is achieved by the fact that in a well-known locking and starting device containing a housing connected to the inlet channel with the capacity of a fluid fire extinguisher under pressure and on the side surface of which there is a window convex to the sprayer, hermetically closed by a telescopic piston, consisting of installed with the possibility relative longitudinal displacements of the outer sleeve and the central stepped plunger, which is loaded with a fluid working fluid of the locking chamber communicating through h drain channel with a membrane of the trigger mechanism, while the outer sleeve of the piston is freely mounted on the ledge of the cylindrical cavity of the housing and has an inlet undercut at the end, as well as a longitudinal blind groove, where a stop pin is mounted, mounted on a central step plunger equipped with an axial through channel with a throttling a hole in the stop, an axial contact seal mounted inside the lid of the locking chamber, at the suggestion of the authors, it is additionally equipped with a manual start mechanism, communicating with the pore chamber through an autonomous drain channel, and the seal is made in the form of a dynamic clamp, which is a fluoroplastic cup congruent with the stop of the plunger in a form that has a minimum clearance when combined, while the manual start mechanism is made in the form of a mounted guide fixed to the lid of the shutoff chamber, a striker adjacent to a hollow longitudinally movable knife mounted above the membrane that overlaps the autonomous drain channel.

Distinctive features provided an increase in the functional reliability of the locking and starting device due to the duplication of the starting mechanism, additional with a manual drive, with a subjective assessment of an emergency when the automatic does not work

the trigger mechanism, and also will not allow to completely exclude emissions of the extinguisher through the drain channels after its operation.

Equipping the locking and starting device with an additional manual starting mechanism communicating with the locking chamber via an autonomous drain channel ensures the operator's active participation in the fire extinguishing system when subjectively assessing the arising danger of a protected object's fire, as well as compensating for the automatic start failure by its functional duplication.

The implementation of the seal in the form of a dynamic clamp, which is a fluoroplastic cup congruent with the stop of the plunger in shape, having a minimum clearance when combined, by definition provides not only damping of the power working loads of the fire extinguisher to the plunger, but also insulates the shut-off chamber by covering the throttle of the through axial channel the plunger by means of inextricably adjoining elastic material of the sealant, the deformation of which from the introduction of a combined stop automatically automatically emno fixes.

The implementation of the manual start mechanism in the form of a striker mounted on a guide fixed to the lid of the locking chamber, adjacent to a hollow longitudinally movable knife mounted above the membrane that overlaps the autonomous drain channel, is the preferred embodiment of a particular design solution providing, together with the essential features of the independent claim, the achievement the required technical result, simple, technological in the manufacture and commissioning, reliable in operation.

Therefore, each essential feature is necessary, and their combination in a stable relationship is sufficient to solve the problem posed in the utility model to achieve the novelty of quality that is not inherent in the signs of disunity, that is, obtained

the supereffect of the sum, not the sum of the effects of the attributes.

The essence of the proposed technical solution is illustrated by drawings, which depict:

figure 1 is a longitudinal section of a General view of the device in its original position;

figure 2 is the same operating position with automatic start;

figure 3 is the same, the working position with a manual start;

figure 4 is a top view of the manual start mechanism (without a button).

The proposed device comprises a housing 1 with an exhaust window 2 on the side surface, where a sprinkler 3 of a fluid fire extinguisher with distributed nozzles 4 is mounted.

The cylindrical cavity of the housing 1 has a ledge 5, formed by the inlet channel 6 and the locking chamber 7 of a larger diameter.

When screwing the housing 1 of the device into the neck of an autonomous container, where under pressure a supply of a fluid fire extinguisher (not shown conditionally) is contained, the inlet channel 6 is switched with the latter.

Inside the housing 1 there is a telescopic piston consisting of relative longitudinal displacements of the central stepped plunger 8 and the outer sleeve 9. In this case, the central plunger 8 is sealed with rubber ring cuffs 10 and 11, respectively, in the shut-off chamber 7 and in the inlet channel 6 at the position of the original position in the standby mode of storage of the extinguisher (figure 1).

The outer sleeve 9 is mounted on the smaller diameter of the stepped plunger 8 and rests in the initial position of the device on the ledge 5 of the central cavity of the housing 1, hermetically closing its outlet window 2. In the lower (according to the drawing) end of the sleeve 9 there is an entry undercut 12, and there is a blind longitudinal side the groove 13, where the thrust pin 14 is mounted on the plunger 8, forming a spline connection.

In the central plunger 8 there is a through axial channel 15 with a throttling hole 16 in the stop 17, protruding above the large highlander of the plunger 8, facing the cover 18, which is tightly adjacent to the housing 1 and closes the shut-off chamber 7, forming it itself.

Inside the cover 18, an axially central stop 17 of the plunger 8 is mounted, a contact elastic seal 19 made of fluoroplastic grade F-4 according to GOST 24222-80 in the form of a cup, and its inner diameter is 0/6 mm greater than the diameter of the stop 17 (geometrically proportional when combined, i.e. congruent by definition). The geometric parameters of the cup 19 were experimentally optimized: height - 3 mm, and wall thickness - 1.5 mm, which provide dynamic deformation of the walls during dynamic loading in operation, as a result of which the stop 17 is comprehensively compacted and mechanically clamped.

In the lid 18 there are two drain channels 20 and 21 of communication with the shut-off chamber 7, overlapped by membranes 22 and 23, respectively.

In the drain channel 20, behind the membrane 22, an automatic start mechanism 24 is strengthened, in particular, made in the form of a squib, electrically connected to the sensors of the security fire alarm.

In the drain channel 21, behind the membrane 23, a manual start mechanism is mounted, including a cylindrical guide 25, inside which a hollow knife 26 is placed with the possibility of longitudinal movement, interacting with the axial hammer 27, carrying a button 28 on the free end.

Between the button 28 and the guide 25 a stopper 29 is placed, which is a fork covering the hammer 27 (Fig. 4), and a transverse pin 30 is installed through the ends of the fork 29, the position of which

outside is fixed on one side by a bent loop, and on the other by means of a wire pin 31.

A filling nozzle 32 is mounted in the housing 1, which communicates through the inlet channel 6 with the storage capacity of the fluid fire extinguisher under pressure, which fills the shut-off chamber 7 through the channel 15 of the plunger 8 with a throttling hole 16, where it functions as its fluid working fluid (Fig. 1).

In this case, the stepped plunger 8 is in its lowest position, because due to the difference in the area of the ends of the stepped plunger 8, an excess of load is created from the side of the cover 18.

The plunger 8 is pressed against the sleeve 9 standing on the ledge 5, which at the same time overlaps the outlet window 2.

In the initial position of the standby mode, the drain channels 20 and 21 are blocked by membranes 22 and 23, isolating the shut-off chamber 7 from the atmosphere, the piston (as the monolithic unity of the plunger 8 and the outer sleeve 9) is at the bottom, and its cuff 11 seals the inlet channel 6.

In the event of a fire source in a protected fire hazardous facility where the proposed device is installed, from exceeding a predetermined temperature or smoke, the pulse from the alarm system sensor (or from the operator’s console) is supplied to the igniter 24, which is triggered by a jump in the pressure of the powder gases membrane 22 As a result of this, the shut-off chamber 7 communicates with the atmosphere, and the fluid working fluid from the chamber 7 is forced out by the plunger 8 under the pressure of the extinguisher from the storage tank.

When moving the plunger 8 upward, its finger 14 moves all the way along the groove 13 of the stationary outer sleeve 9, and the rubber ring cuff 11 comes out of interaction with the surface of the channel 6 of the housing 1, expands elastically and fills the input end

undercut 12 of sleeve 9, jamming it. This provides a power and geometric closure of the structural elements of the piston: the plunger 8 and the sleeve 9, which move further together, opening the exhaust window 2, where a fluid fire extinguisher rushes from the storage tank to the sprayer 3.

Through the distributed nozzles 4 of the spraying device 3, a fluid fire extinguisher is jetted in the form of finely divided fractions of combustion inhibitors into the ignition area, where the fire is suppressed by interrupting the chain of oxidative exothermic reactions.

In the extreme upper position of the piston 8-9 (FIGS. 2, 3), the stop 17 is pressed with force into the fluoroplastic cup of the seal 19, which elastically damps the energies of the moving masses, while the material of the cup 19 is redistributed, filling the radial gap between the stop 17 and the walls of the cup 19 , resulting in the emphasis 17 is fixed, which extinguishes reactive reversal (the cause of the end gap in the prototype).

The plunger 8 is tightly adjacent to the cover 18, and the throttle hole 16 is blocked by a seal 19, preventing the extinguisher from flowing through the channel 15, which completely eliminates the release of the extinguisher through the drain channel 20 into the service area, irrational and harmful loss of the extinguisher.

The sleeve 9 is held on the finger 14 of the plunger 8.

It should be noted that the throttle 16 of the axial channel 15 of the plunger 8, when the plunger 8 is sharply moved upward after the membranes 22 or 23 breaks down, exerts damping hydrodynamic resistance, reducing the flow of a fire extinguisher into the locking chamber 7 until the stop 17 contacts the elastic seal 19. The pressure extinguisher in the inlet channel 6 additionally presses the plunger 8 and, therefore, the stop 17 to the seal 19.

Over the entire amplitude of possible reactive vibrations of the plunger 8, when resting on the cover 18, the stop 17 is compressed by the material of the cup 19, and the throttle hole 16 remains closed.

Thus, the device is automatically launched into operation and the sequential actions of the actuators are reliable and rational.

In the case when the control pulse in the event of a fire does not arrive at the charging of the automatic start mechanism 24, the device is started up manually by the following procedure.

Remove the check 31 from the pin 30, which is for. the loop is removed from the plug 29, freeing it. Then the plug 29 is removed transversely from under the buttons 28, freeing the hammer 27 for possible longitudinal movements - the manual start mechanism is ready for operation.

To manually start the device into operation by a sharp blow to the button 28 through the hammer 27, a knife 26 is moved down, which breaks the membrane 23, as a result of which the shut-off chamber 7 commutes with the atmosphere. The working fluid from the chamber 7 is squeezed out under the action of the upward moving plunger 8 through the hollow knife 26 and the technological clearances of the drain channel 21.

Further, the structural elements of the device operate and interact similarly to the above when the automatic trigger 24 is triggered.

The utility model allows you to vary the startup options: with duplicated different in design and operation (automatic and manual mechanisms), as well as their autonomous equipment (when installed in the opposite drain channel of the plug) in accordance with the requirements of the fire extinguishing system, which extends the technological possibilities of using the proposed design locking trigger device.

The prototype of the device was tested in various launch modes under the conditions of a test station when simulating specified controlled parameters in a protected volume with repeated repetition and alternation of automatic and manual starts.

The failure-free operation of the device and the accuracy of the action in a given sequence and the relationship of its executive structural elements satisfy the requirements for practical functioning in stationary fire alarm systems, which are recommended to be equipped with the proposed locking and starting devices.

A comparative analysis of the proposed technical solution with identified analogues of the prior art, from which the utility model does not explicitly follow for a fire automatics specialist, showed that it is not known, and taking into account the possibility of industrial serial production of the proposed locking and starting device, we can conclude that patentability criteria.

Claims (2)

1. A locking and starting device containing a housing connected by an inlet channel to a container of a pressurized fire extinguisher, on the side surface of which there is an outlet window to the sprayer, which is hermetically sealed by a telescopic piston, which consists of an outer sleeve and a central mounted with the possibility of relative longitudinal movements a stepped plunger, which is loaded with a fluid working fluid of the locking chamber, communicating through the drain channel with the membrane of the trigger mechanism, while I the piston sleeve is freely mounted on the ledge of the cylindrical cavity of the housing and has an inlet undercut at the end, as well as a longitudinal blind groove, where the stop pin is mounted, mounted on a central step plunger equipped with an axial through channel with a throttling hole in the stop, an axial contact seal mounted inside the lid of the locking chamber, characterized in that it is additionally equipped with a manual start mechanism, communicating with the locking chamber through an autonomous drain channel, and the seal It is filled in the form of a dynamic clamp, which is a fluoroplastic cup congruent with the emphasis of the plunger shape, having a minimum clearance when combined. 2. The locking-starting device according to claim 1, characterized in that the manual starting mechanism is made in the form of a striker mounted on a guide mounted on the lid of the locking chamber, adjacent to a hollow longitudinally movable knife mounted above the membrane that overlaps the autonomous drain channel.