RU120366U1 - MULTI-MODULE INSTALLATION OF PULSE POWDER FIRE FIGHTING - Google Patents

Abstract

1. A multi-module pulsed powder fire extinguishing installation containing a metal turntable, powder fire extinguishing modules (MPP), a platform with coaxially installed and fixed on it pulsed MPP is made with the possibility of directing it in a vertical plane in the direction of the fire source and alternately launching fire extinguishing powder from each individual MPP in the direction of the fire source after a starting electric pulse is applied to it, characterized in that the first and second reversible electric drives are introduced, a video camera with an aiming device fixed on the platform coaxially with the MPP, the control panel for the installation and launch of the MPP, the installation is made with the ability to aim at the hearth fire, both in vertical and horizontal planes, using the first and second reversible electric drives by remote control from the installation guidance panel and starting the MPP by appropriate platform turns by the operator according to information from the video camera, fixing the MPP to the platform is structurally made in the form of lever devices, simultaneously by turning the levers, releasing all MPPs from attachment to the rotary platform and / or securing them. ! 2. Installation according to claim 1, characterized in that it contains 8 MPPs of the Tungus-24 type installed on the platform in two rows located one above the other, 4 MPPs in each row. ! 3. Installation according to claim 1, characterized in that the control panel of the installation and the launch of the MPP is made in the form of a remote control panel, electrically connected by a cable to the installation and equipped with a monitor connected to the video camera.

Description

Technical field

The utility model relates to fire fighting technology and is designed to extinguish fires using powder fire extinguishing modules (MPF), placed on a rotary platform, which can be installed on both stationary and moving bases, for example, on carts, trailers, on automobile chassis, etc. n., that is, be used both in stationary and in mobile versions.

State of the art

At present, the fire protection of real estate in the Russian Federation, especially in rural areas, can be assessed for the most part as unsatisfactory. The speed of arrival of the fire departments is low, as they have at their disposal heavy tank cars filled with water, which are difficult to drive, especially on poor regional roads. There is an urgent need to create light mobile powder fire extinguishing systems with great fire extinguishing ability and designed to complement, and in some cases replace, existing fire engines with traditional methods of extinguishing with water and foam. In addition, the use of powder fire extinguishing systems will improve the safety of the crew, and increase the speed and effectiveness of suppressing the fire.

Known [1] is a fire extinguishing vehicle containing a chassis, a container with a fire extinguishing agent, a heater, a supply pipe, a pipe for supplying a fire extinguishing substance, pipelines, safety and shutoff valves (RF patent No. 2131755 C1, 1999). Also known [2] is a mobile fire extinguishing installation consisting of a separate container-type van, the van is divided into two parts - the crew’s crew compartment and the operator’s compartment, while the operator’s compartment contains at least one water tank connected to the hot water production unit and superheated water to extinguish a fire having a heat exchanger and heater, made in the form of a burner, and a generator electric power plant for supplying external consumers (RF patent No. 47755 U1, 2005). However, the known device is distinguished by insufficient fire extinguishing efficiency associated with a limited amount of stored extinguishing agent and, accordingly, with a limitation of the flow of extinguishing agent.

The well-known installation of volley powder fire extinguishing "Impulse-1", "Impulse-2", "Impulse-Storm", a system of mobile multi-barrel pulsed throwing of charges with powder into the fire site "Vetluga", as can be seen from the brief information provided on the Internet, the complexity execution and use in the "heavy" version - on vehicles such as a tank, armored personnel carrier, etc.

These disadvantages are partially overcome in the technical solution [3] -Installation of U-9-MPP (N) -24-I-GE-U2. Passport and operation manual. CJSC “Source Plus” Biysk, 2012. This installation relates to pulsed powder fire extinguishing means and can be considered as the closest analogue to the proposed technical solution for the technical nature and purpose. The known device [3] contains a platform with nine pulsed MPP “Tungus-24” installed and fixed on it. Each MPP is secured by a separate stopper on a platform consisting of a slipway and a frame with guides for MPP. The platform is equipped with a screw mechanism to ensure the MPP is guided to the fire in a vertical plane. The fire extinguishing efficiency of this installation is higher than that of the considered analogues [1], [2], but it is limited by the existing disadvantages. The disadvantages of this installation are: the lack of the possibility of pointing the MPP to the fire in a horizontal plane by turning the platform; Significant time for replacement of triggered MPP, due to design features - fixing and releasing MPP on the platform is carried out separately for each MPP alternately; guidance only manually and visually, without the use of automation and aiming.

In this utility model, a lightweight complex is proposed - a pulsed powder fire extinguishing installation that can be installed permanently on a fixed base, on a vehicle and / or on a light trailer to any vehicle.

Utility Model Disclosure

The utility model is based on the task of increasing fire extinguishing efficiency by creating an installation that constructively expands the possibilities of pointing the MPP to the fire center not only in the vertical but also in the horizontal planes, reducing the time to replace the triggered MPP, as well as using automation and aiming tools to guide the installation to the fire

The solution to the technical problem is achieved by the fact that in the known installation of pulsed powder fire extinguishing, containing a metal rotary platform with coaxial MPP installed coaxially and mounted on it, made with the possibility of pointing it in a vertical plane in the direction of the fire source and alternately starting fire extinguishing powder from each individual MPP in the direction the source of the fire after applying a starting electric pulse to it, according to the utility model, the first and second reversible electric servomotors are introduced bodies, a remote control for installation and start-up of the MPP, a video camera with an aiming device mounted coaxially with the MPP, the installation is made with the possibility of pointing to the fire, both in the vertical and horizontal planes, using the first and second reversible electric servomotors, respectively by remote control from the remote control of the platform rotations in the vertical and horizontal planes by the operator according to the information from the video camera, the attachment points of the MPP to the platform are structurally made in the form of a lever important devices, at the same time by turning the levers that release all the MPP from fastening to the turntable and / or securing them.

Also provided.

The installation contains 8 MPPs of the Tungus-24 type installed on the platform in two rows located one above the other, 4 MPPs in each row.

The MPP installation and start-up remote control is made in the form of a remote control that is electrically connected by a cable to the platform and equipped with a monitor connected to the video camera.

A camcorder with an aiming device mounted on the platform coaxially with the MPP is connected to the remote control by a cable.

The introduction of distinctive features in the utility model allows the creation of an impulse powder fire extinguishing installation, where the possibility of aiming at the MPP fire center not only in the vertical but also in the horizontal planes is structurally ensured, reducing the time to replace the triggered MPP, and also using automation tools for aiming at the fire fire. This leads to the solution of the problem with the achievement of the technical result - increasing the efficiency of fire fighting.

The applicant has not identified technical solutions that are identical to the claimed utility model, which allows us to conclude that it meets the criterion of "novelty."

Brief Description of the Drawings

The essence of the utility model is illustrated by graphic materials. A general view of the installation is shown in FIGS. 1, 2 — a left front view and a right rear view, respectively; FIGS. 3–7 show the individual components of the installation; FIG. 8 shows the installation mounted on a trailer. Figure 3.4 presents, respectively, a left front view and a top view of the left frame of the turntable. Figures 5 and 6 are schematic views of horizontal and vertical reversible electric drives, respectively, explaining the kinematics of the platform rotations. Figure 7 shows a working drawing of the upper gearbox of the vertical electric drive.

The positions in the drawings indicate:

1 - rotary platform;

2 - powder fire extinguishing modules;

3 - the first electric servomotor;

4 - second electric servomotor;

5 - a video camera with an aiming device;

6 - the central rack;

7 - the frame of the turntable;

8 - horizontal guides of the frame;

9 - sleeve mounting frame;

10 - stud fastening MPP;

11 - latch;

12 - axis of the latch;

13 - transverse trims;

14 - longitudinal strips;

15 - vertical bar;

16 - handle turning the vertical bar;

17 - clamp clamp the longitudinal bar;

18 - lower gear vertical drive;

19 - upper gear vertical drive;

20 - horizontal bearing shaft of a vertical drive;

21 - a transmission shaft of a vertical drive;

22 - a rotary flange;

23 - “ratchet” vertical;

24 - horizontal drive gear;

25 - vertical bearing shaft of a horizontal drive;

26 - “ratchet” horizontal;

27 - bolts of fastening.

Utility Model Implementation

As can be seen from the above and the graphic materials, the proposed multimodular impulse fire extinguishing installation (in the implementation has the name "Granite") contains a rotary platform 1 with powder fire extinguishing modules 2 mounted and mounted coaxially on it. The rotary platform 1 is connected with the first 3 and second 4 electric reversible servomotors designed to carry out its turns in the vertical and horizontal planes, respectively, through the elements of vertical and horizontal electric drives. Coaxial with MPP 2 on platform 1, a video camera 5 with an aiming device is also installed. The installation is equipped with a remote control for its guidance and launch MPP (not shown in the drawings). The remote control for installation and start-up of the MPP is made in the form of a remote control panel, electrically connected by a cable to the platform, and equipped with a monitor connected to the video camera. For mounting the unit in a stationary or mobile version and for mounting its elements, a central rack 6 is provided, equipped with mounting bolts 27. The turntable 1 consists of two metal frames 7 (left and right), the horizontal guides of which 8 are used for fastening the MPP. To connect the frame 7 to the drive, the fasteners of the frame 9 are designed. On the case of each MPP there are four fastening pins 10, and on the horizontal guides of the frame 8 there are grooves for these pins. In each frame 7 are installed 4 MPP type "Tungus-24" in two rows. This arrangement of the MPP allows you to reduce by a third, compared with the prototype, the lever action of the overturning recoil forces that occur when starting the MPP from the upper row.

The attachment site of the MPP to the turntable is a lever device. It includes: latch 11, the axis of the latch 12, the transverse 13 and longitudinal 14 straps of the MPP attachment point, a vertical rod 15, a handle for turning the vertical rod 16, clamps for pressing the longitudinal bars 17.

The vertical and horizontal electric drives designed to rotate the platform in the vertical and horizontal planes respectively include reversible electric servomotors 3, 4 and gearboxes 18, 19, 24 that transmit the rotation of the motors to the corresponding shafts 20, 21, 25, which rotate the platform. The vertical electric drive contains the first servomotor 3 — a reversible electric motor of the vertical drive, lower 18 and upper 19 gearboxes, a horizontal bearing shaft of the vertical drive 20, a transmission shaft (via the lower gearbox 18 from the electric servomotor 3) of the vertical drive 21. For installing the upper gearbox 19 of the vertical drive the rotary flange 22 is designed. The vertical drive is also equipped with a mechanism for fixing the platform after pointing it vertically with a “ratchet” vertical 23. Gori the electric drive contains a second servomotor 4 — a horizontal electric reversible electric motor, a horizontal horizontal gear 24, and a vertical horizontal main drive shaft 25. The horizontal electric drive is also equipped with a platform locking mechanism after moving it horizontally with a horizontal “ratchet” 26. For attaching the unit to the load-bearing structure transportation provided for mounting bolts 27 of the Central rack using a skirt to the supporting structure of the means of transportation (skirt not shown in the drawing a).

The control panel for installation and start-up of the MPP is electrically connected by a cable with electric drives and through plug connectors with each MPP (not shown in the drawings). On the remote control there is a monitor, a toggle switch, indicators for the status of the MPP start electric circuits, a tinker switch for starting a particular MPP, 2 MPP start buttons, and 2 joysticks for turning the platform “Left-Right” and “Up-Down”. The remote control is designed to be both stationary (together with the installation) and portable, depending on the conditions of use of the installation.

The work of the proposed multi-module installation of pulse fire extinguishing is as follows.

The pre-assembled installation is ready for use. MPP 2 are fixed in the frames 7 of the rotary platform 1, that is, the installation is “charged”. The principle of operation of the fastening mechanism MPP is as follows. For installation in the left frame 7 of the turntable 1 (see Figs. 3, 4), the MPPs are alternately inserted from the front with the fastening pins 10 into the corresponding grooves on the horizontal guides 8 of the frame 7. After installing the four MPPs, the handle 16 is turned clockwise to the position corresponding to that shown figure 3, 4. In this case, the vertical rod 15 of the attachment node compresses the brackets 17 longitudinal strips 14, which with the help of the transverse brackets 13 rotate all the latches 11 around the axes 12 in the locking position in the horizontal guides of the frame 8 all sixteen mounting studs at the same time for four WFP. Similar actions are carried out when installing the MPP in the right frame 7 of the turntable 1. When replacing the "triggered" MPP they are released from the mount. At the same time, the above actions are performed in the reverse order: the handle 16 rotates counterclockwise, the vertical rod 15 stops stopping the longitudinal bars 14 with the brackets 17, they rotate and, as a result, the transverse bars 13 rotate all the latches 11 around the axes 12, removing the fixation and releasing all sixteen studs fastening 10 four MPPs simultaneously.

The prepared installation is mounted on the territory of the protected facility (with a stationary use case) or delivered to the place of fire on a vehicle (with a mobile use case). Next, the task of guiding the installation on the fire in the horizontal and vertical planes. According to information from a video camera 5 with an aiming device, the operator from the remote control includes reversible servomotors. With the help of gears, the rotation of the engines is transmitted to the corresponding shafts, providing the required rotations of the platform. Servo motors are powered by a car battery.

Turns of the platform in two planes are carried out by two electric drives. When the electric servomotor 4 of the horizontal drive is turned on, the rotation of its shaft with the help of the horizontal drive gear 24 is transmitted to the vertical bearing shaft 25 of the horizontal drive connected to the rotary flange 22 on which the upper vertical drive gear 19 is mounted. As a result, the rotary flange 22 rotates in a horizontal plane, as shown in FIG. 5, by pointing the rotary platform horizontally. On the shaft of the bevel gear of the horizontal drive there is a mechanism for fixing the platform after pointing - the “ratchet” horizontal 26. It automatically works after the engine stops. When you turn on the electric servomotor 3 of the vertical drive, the rotation of its shaft is transmitted using the lower gear 18 to the transmission shaft 21 of the vertical drive (see Fig.6). The transmission shaft 21 passes through the Central rack 6 and transmits its rotation using bevel gears to the bearing shaft 20 of the vertical drive, the rotation of which leads to the rotation of the platform 1 in a vertical plane. "Ratchet" vertical 23 is automatically triggered after the engine 3 stops and serves to fix the platform after completion of the guidance process in the vertical plane.

When the installation guidance on the fire site in both horizontal and vertical planes is completed, fire extinguishing powder is sequentially released from any selected MPP in the direction of the fire site until it is eliminated. Thus, from the guidance panel of the installation and start-up of the MPP, both the guidance of the platform 1 and the release of the extinguishing powder in the direction of ignition from the MPP are carried out remotely. The operator of the console performs the necessary actions according to the information on the monitor from the camcorder 5 with the aiming device. When all MPPs have been used up, they make a new “loading” - replacing the used MPPs with new modules filled with extinguishing powder. To do this, turn off the MPP (immediately 4) from the attachment point by turning the handle 16 and replace them from the spare “portable” kit. The time for this operation is required significantly less than in the prototype, due to the design features of the MPP mount.

As can be seen from the foregoing, the introduction of significant distinguishing features made it possible to achieve a technical result and create an installation that constructively provides expanding the ability to aim at the fire MPP not only in the vertical but also in the horizontal planes, reducing the time to replace the triggered MPP, as well as using automation and aiming to guide the installation on the fire. Thus, the task is solved and provided to increase the efficiency of fire fighting.

Field tests have confirmed the indicated capabilities of the proposed multi-module installation of pulsed powder fire extinguishing. The device can be manufactured on small production lines from known materials without the use of special devices and equipment. All this determines the compliance of the claimed technical solution to the criterion of "industrial applicability".

Industrial applicability

Technical documentation, working drawings are developed, prototypes are made and their successful tests are carried out. High technical characteristics of the proposed technical solution and a fairly low price determine the prospect of its widespread use.

Information sources

1. Fire fighting vehicle. RF patent No. 2131755 C1, 1999

2. Mobile installation, fire fighting. RF patent No. 47755 U1, 2005

3. Installation of U-9-MPP (N) -24-I-GE-U2. Passport and operation manual. CJSC “Source Plus” Biysk http // http: //www.antifire.org, prototype

Claims (3)

1. A multimodular impulse powder fire extinguishing installation containing a metal rotary platform, powder fire extinguishing modules (MPF), a platform with impulse MPPs mounted coaxially and attached to it, is configured to guide it in a vertical plane in the direction of the fire source and to start fire extinguishing powder from each individual MPP in the direction of the fire after a start-up electric pulse is applied to it, characterized in that the first and second reversible electric drives are introduced odes, a camcorder with an aiming device mounted coaxially with the MPP on the platform, the MPP installation and start-up remote control, the installation is designed to aim at the fire, both in vertical and horizontal planes, using the first and second reversible electric drives by remote control from the remote control of installation and start-up of the MPP by the corresponding turns of the platform by the operator according to information from the video camera, the MPP is fixed to the platform in the form of lever devices, simultaneously by turning the levers that would exempt all from WFP to mount a turntable and / or perpetuate them. 2. Installation according to claim 1, characterized in that it contains 8 MPP type Tungus-24, installed on the platform in two rows located one above the other, 4 MPP in each row. 3. The installation according to claim 1, characterized in that the remote control installation and start-up MPP is made in the form of a remote control, electrically connected by cable to the installation and equipped with a monitor connected to the video camera.