RU222987U1 - Locking and starting device for fire extinguishing system cylinders - Google Patents

Abstract

The utility model relates to fire-fighting equipment, in particular to means of preventing and extinguishing fires on vehicles. The shut-off and starting device of the fire extinguishing system cylinder contains a supporting body located in the lower part of the cylinder with a central axial channel and a spray head coaxially located to the latter for exiting the fire-extinguishing liquid, a fitting for filling the fire-extinguishing liquid and inert gas into the cylinder and a fitting for monitoring the pressure inside the cylinder, a bursting disc , a membrane rupture device with a squib. What is new is that the membrane rupture means includes a cylindrical punch, coaxially installed in the passage channel of the atomizer head, while the punch has a blind central hole for installing the squib. On the end surface of the punch, facing the membrane, there is a conical recess with the formation of a sharp edge along the edge of the specified end surface. The upper part of the punch is made in the form of a truncated cone, the length of which is 1/3 of the entire length of the punch. The fittings for inlet of the fire-extinguishing liquid and control of the pressure inside the cylinder are located diametrically on the body. The outlet openings of the nozzle head have a conoidal shape with a convergence angle of 40°-45° and a rounding radius of sharp edges equal to the thickness of the nozzle wall. The technical result consists in increasing the speed of the shut-off and starting device for fire extinguishing system cylinders. 4 salary f-ly, 3 ill.

Description

The utility model relates to fire-fighting equipment, in particular to means of preventing and extinguishing fires on vehicles.

A locking and starting device is known (RU, patent No. 2182504 according to No. 2001106160 dated March 6, 2001, MPK A62S37/08, A62S35/08), used in automatic fire extinguishing systems VGM. The device contains a housing mounted on a siphon tube with inlet and outlet openings located coaxially with the siphon tube, a means for breaking the membrane with a squib, and a means for holding the breaking element, made in the form of a streamlined catcher. The catcher is installed inside the housing coaxially with its openings and to form an annular passage for the fire extinguishing liquid. The membrane rupture element is made in the form of a cylindrical rod, spring-loaded relative to the catcher and having the ability to block the inlet opening of the housing. The cylindrical rod has on one base a cone-shaped fairing directed towards the siphon tube, and on the other there is a fixing pin coaxial with the fairing. The catcher has a guide channel for the passage of a finger when the membrane ruptures.

However, this invention has increased hydrodynamic resistance to the flow of fire extinguishing agents.

A locking and starting device is known, used in a device for starting a fire extinguishing installation (SU, USSR author's certificate No. 1576170 under Z. No. 4263974 dated 05.14.1987, IPC A62S37/46). The shut-off and starting device contains a housing with a channel, to which an inlet fitting is attached coaxially with the channel and an outlet fitting attached to the side surface of the housing, a shut-off membrane installed between the inlet fitting and the housing, a spool installed in the channel from the side of the output fitting and with the ability to interact with a shut-off membrane, a piston interacting with a shut-off and stimulating device and a membrane catcher. The shut-off and stimulating device is equipped with an additional membrane installed in the housing channel at a distance from the outlet fitting channel exceeding the length of the spool with the formation of a liquid-filled cavity between them. The spool is installed in the channel so that its side surface overlaps the channel of the outlet fitting, and the piston is installed on the opposite side of the cavity with liquid and interacts with an additional membrane.

The disadvantages of this device include low performance and design complexity.

As a prototype, we selected a locking and starting device for a module of a high-speed automatic fire extinguishing system on a vehicle (RU, patent No. 125868 according to Z. No. 2012135668 dated 08/20/2012, MPK A62S 3/00), consisting of a main fitting screwed into a cylinder with fire extinguishing liquid and an inert gas, on which a supporting body is mounted coaxially to the cylinder, to which a spray head is attached coaxially to the cylinder, and radially - a filling fitting and a pressure indicator fitting, while the squib fitting is installed tangentially to the opening of the main fitting and is equipped with a thin membrane that isolates the squib from the effects of pressure in cylinder _Rb , but designed to be triggered by pressure _Rtm . At the outlet of the main fitting and the spray head, a power membrane is installed, designed for a dosed triggering force from pressure _Pcm , the squib is designed to create pressure _Pp , and these values are interconnected the following relationships: R _b <R _tm <R _p , R _b <R _cm <R _b + R _p . The sprayer is made with radial holes to release the extinguishing agent.

The disadvantage of this device is its low performance due to the presence of two membranes and the inability to remove damaged membranes, which reduce the flow areas of the spray head.

The technical result of the utility model is to increase the speed of the locking and starting device for fire extinguishing system cylinders.

The technical result is achieved in that in a shut-off and starting device for fire extinguishing system cylinders, containing a supporting body located in the lower part of the cylinder with a central axial channel and a spray head coaxially located to the latter for the outlet of fire extinguishing liquid, a fitting for filling fire extinguishing liquid and inert gas into the cylinder and a fitting for monitoring the pressure inside the cylinder, a bursting disc, a means for breaking the membrane with a squib, according to the utility model, the means for breaking the membrane includes a cylindrical punch, coaxially installed in the passage channel of the atomizer head, while the punch has a blind central hole for installing the squib.

In this case, a conical recess is made on the end surface of the punch facing the membrane, forming a sharp edge along the edge of said end surface, and the cone angle is 8°÷15°.

At the same time, the upper part of the punch is made in the form of a truncated cone, the length of which is 1/4÷/3 of the entire length of the punch, while the cone angle is 8°÷12°.

In this case, the fitting for filling fire-extinguishing liquid and inert gas into the cylinder and the fitting for monitoring the pressure inside the cylinder are located diametrically on the body.

In this case, the outlet holes of the spray head have a conoidal shape with a convergence angle of 40°÷45° and a rounding radius of sharp edges equal to the thickness of the spray wall.

Analysis of distinctive features showed the following:

- the presence of a punch in the membrane rupture means, coaxially installed in the passage channel of the spray head and its cylindrical shape made it possible to form an outlet hole in the membrane equal to the diameter of the punch, which facilitates the passage of the fire-extinguishing liquid with maximum speed;

- making a conical recess on the end surface of the punch facing the membrane allows you to remove its remains after a rupture without blocking the flow sections of the spray head. The optimal taper angle is β=8÷15°. The sharp edge formed along the edge of the specified end surface allows you to cut through the membrane with maximum speed;

- making the upper part of the punch in the form of a truncated cone allows you to expand the flow area of the cut membrane and reduce the outflow resistance and, accordingly, increase the response speed of the shut-off and starting device. The best result will be achieved when the length of the conical part of the punch is 1/3 of the entire length of the punch and the taper angle α=8°÷12°;

- the diametric arrangement on the body of the fittings for filling fire-extinguishing liquid and inert gas into the cylinder and monitoring the pressure inside the cylinder made it possible to simplify the process of filling the cylinder;

- production of conoidal-shaped outlet holes in the spray head, with a convergence angle of 45° and a rounding radius of sharp edges equal to the wall thickness of the spray gun, which made it possible to form a stream of fire-extinguishing liquid with complete filling of the cross-section of the outlet hole (see T.M. Bashta Gidroprivod and hydropneumoautomatics. M.: Mashinostroenie, 1972, p. 35).

The essence of the utility model is illustrated by drawings, where:

- figure 1 shows the shut-off and starting device of the fire extinguishing system cylinder;

- in fig. 2 shows a punch of a shut-off and starting device;

- in fig. Figure 3 shows the head of the fire extinguishing liquid sprayer.

The shut-off and starting device for fire extinguishing system cylinders (see Fig. 1) consists of a supporting body 1, screwed into a cylinder 2 with fire extinguishing liquid and inert gas, to which a spray head 3 is attached coaxially to the cylinder, diametrically located fitting 4 for filling fire extinguishing liquid and inert gas gas into the cylinder (hereinafter referred to as filling connection 4) and pressure control connection 5. The inlet 6 of the filling fitting 4 is hermetically sealed with a plug 7, screwed into the filling fitting 4, and with a seal 8. Additionally, the filling fitting 4 is plugged with a screw plug 9. The fitting 5 is hermetically sealed with a sensitive element (not shown in figure 1) of the pressure indicator 10, the threaded part of the housing indicator and seal 11. The central axial channel 12 of the supporting body 1 is closed by a metal membrane 13, pressed together with seals 14 and 15 to the supporting body 1 by the head of the sprayer 3. In the head of the sprayer 3 there is a punch 16, fixed by a retaining ring 17 in the grooves of the sprayer head 3 and punch 16. In the punch 16 there is a blind hole “A”, in which the squib 18 is located. The squib 18 is fixed with a nut 19. The upper part of the punch 16, which is 1/4÷1/3 of its length, is made in the form of a truncated cone with a taper angle α=8°÷12°. On the end surface of the punch 16, facing the membrane 13, a conical recess “B” is made, forming a sharp edge along the edge of said end surface, with the cone angle β= 8÷15°.

The spray head 3 is made with six conoidal holes 20 for the exit of fire extinguishing liquid with a convergence angle ε=45° and a rounding radius of sharp edges (r) equal to the wall thickness of the spray gun (t).

The operation of the locking and starting device is as follows. In the initial state, the central axial channel 12 is closed by a metal membrane 13, pressed by the spray head 3 against the body 1 by the threaded part of the spray head 3. The punch 16, with the help of a locking ring 17, is in its original position. The fire extinguishing liquid is contained in a sealed container. When a temperature sensor (not shown in the diagram) is triggered, signaling the occurrence of a fire, a signal is issued to trigger the squib 18. When the squib 18 is triggered, a sharp increase in pressure occurs, acting on the punch 16 and tears it off the retaining ring 17. The punch 16 under the influence of increased pressure powder gases cuts through the membrane 13 and, with further movement, opens the outlet holes 20 of the spray head 3. Through the open holes 20, the powder gases escape into the atmosphere. The cut membrane 13, which has the shape of a washer, under the influence of pressure in the cylinder 2 is pressed against the end conical part “B” of the punch 16. When the pressure of the powder gases decreases, the pressure in the cylinder returns the punch 18 to its original position, while opening the outlet holes 20 of the spray head 3 for release of fire extinguishing liquid.

Thus, the claimed utility model ensures an increase in the speed of the locking and starting device for fire extinguishing system cylinders.

Claims (5)

1. A shut-off and starting device for the fire extinguishing system cylinder, containing a supporting body located in the lower part of the cylinder with a central axial channel and a spray head coaxially located to the latter for the release of fire-extinguishing liquid, a fitting for filling fire-extinguishing liquid and inert gas into the cylinder and a fitting for monitoring the pressure inside the cylinder , a bursting disc, a means for breaking the membrane with a squib, characterized in that the means for breaking the membrane includes a cylindrical shaped punch, coaxially installed in the passage channel of the sprayer head, while the punch has a blind central hole for installing the squib. 2. A shut-off and starting device for fire extinguishing system cylinders according to claim 1, characterized in that on the end surface of the punch facing the membrane there is a conical recess with the formation of a sharp edge along the edge of said end surface, with the cone angle being 8-15º. 3. A shut-off and starting device for fire extinguishing system cylinders according to claim 1, characterized in that the upper part of the punch is made in the form of a truncated cone, the length of which is 1/4÷1/3 of the entire length of the punch, while the cone angle is 8-12º . 4. A shut-off and starting device for fire extinguishing system cylinders according to claim 1, characterized in that the fitting for filling fire extinguishing liquid and inert gas into the cylinder and the fitting for controlling the pressure inside the cylinder are located diametrically on the body. 5. A shut-off and starting device for fire extinguishing system cylinders according to claim 1, characterized in that the outlet openings of the spray head have a conoidal shape with a convergence angle of 40-45º and a rounding radius of sharp edges equal to the wall thickness of the spray gun.