RU213315U1 - SIMULATOR FOR TRAINING METHODS OF RELEASE OF VICTIMS LOCATED IN BUILDING STRUCTURES - Google Patents

Abstract

The utility model relates to simulators for training firefighters and rescuers and is intended for training sessions to develop methods and techniques for removing debris from building structures and releasing victims. The simulator for testing the methods of releasing victims located in the blockage from building structures, contains modules connected by a hinged chain connection with destructible connecting elements, each module is made in the form close to a flat parallelepiped with a base in the shape close to a trapezoid, and on each side face has metal elements fastenings in the form of mounting loops, and the distances between the specified fastening elements are the same. The simulator for working out the methods of unblocking the victims, who are in the blockage from building structures, contains N-modules, where N=2, 3, 4 ... The modules are made of concrete with embedded fasteners. Destructible connecting elements are made replaceable. One of the modules is equipped with fixation elements fixed on one of the bases, designed for fastening at an angle to the surface of the specified base, close to 90° of replaceable segments of metal rods. EFFECT: creation of a simulator for testing methods for releasing victims who are in a blockage from building structures.

Description

The utility model relates to simulators for training firefighters and rescuers and is intended for training sessions to develop methods and techniques for removing debris from building structures and releasing victims.

The practice of fighting fires and natural disasters has shown that buildings and structures often do not withstand the direct impact of high temperatures and heat flux, as well as natural disasters, as a result of which the integrity of building structures is violated or their deformation occurs. These factors have a direct impact on the efficiency of the actions of fire and rescue units, on which the effective performance of a combat mission in a fire or in the aftermath of natural disasters depends. To release the victims, extract the victims from the rubble, dismantle building structures and remove deformed building elements, firefighters and rescuers use special equipment, which includes a hydraulic rescue tool (GASI). Working with such a tool requires the personnel of fire and rescue units to have professional training and develop skills and abilities to work with it.

The Applicant is not aware of analogues and prototypes of the simulator for testing methods for releasing victims who are in the rubble from building structures.

The technical result of the claimed utility model is the creation of a simulator for testing methods for releasing victims who are in a blockage from building structures.

The technical result is achieved by the fact that the simulator for working out methods for releasing victims located in a blockage from building structures contains modules connected by a hinged chain connection with destructible connecting elements, each module is made in the form close to a flat parallelepiped with a base in a shape close to a trapezoid, and on each side face has metal fastening elements in the form of mounting loops, and the distances between the said fastening elements are the same. The simulator for working out the methods of release of the victims, who are in the rubble from building structures, contains N-modules, where N=2, 3, 4 ... The modules are made of concrete with embedded fastening elements. Destructible connecting elements are made replaceable. One of the modules is equipped with fixation elements fixed on one of the bases, designed for fastening at an angle to the surface of the specified base close to 90° of replaceable segments of metal rods.

The essence of the utility model is illustrated by drawings.

In FIG. 1 shows a simulator for working out methods for releasing victims who are in a blockage from building structures, in Fig. 2 shows the module of the proposed simulator, Fig. Figure 3 shows the module with fixing elements for replaceable segments of metal rods of the proposed simulator.

The simulator for working out the methods of release of the victims, who are in the rubble of the building structures contains modules 1 connected hinged, number N, where N=2, 3, 4…. Each module 1 is made in a shape close to a flat parallelepiped, with a base 2 in a shape close to a trapezoid. On each side face 3, each module 1 has metal fastening elements 4 in the form of mounting loops, and the distances between these fastening elements are the same. The modules can be made of concrete with embedded fastening elements 4. One module 1 can be equipped with fixing elements 5 fixed on one of the bases 2, designed for fastening at an angle to the surface of the specified base 2, close to 90° of replaceable pieces of metal rods 6, preferably 400-600 mm long. Modules 1 are connected in random order by articulated chain connection with destructible connecting elements 7, made replaceable. The connection of two adjacent modules is carried out by at least one destructible element 7. The modules 1 are protected from moving away from each other due to the chain connection, however, they remain to a certain extent pivotally movable relative to each other.

The simulator for working out methods of releasing victims who are in a blockage from building structures is designed to be used in conjunction with a mannequin (dummies) imitating a victim and elements of building structures (for example, building blocks, bricks, logs, boards, etc.). The inventive simulator is used for practicing coordinated actions as part of one or more units of firefighters/rescuers using GACI during rescue operations. The inventive simulator is installed in a predetermined initial position, the modules are placed at an angle to each other and the location is fixed, for example, by installing elements of building structures under it (for example, building blocks or bricks), a mannequin (dummies) simulating the victim, a second similar simulator, etc. .P. A mannequin is strung on segments of metal rods 6. In a given initial position, the modules 1 of the simulator are loaded with elements of building structures (for example, building blocks, bricks, logs, boards, etc.). It is possible to use two or more of the proposed simulators simultaneously. Thus, they imitate a blockage from building structures and create tasks for its elimination of varying degrees of complexity and for the extraction of victims. When solving the task of eliminating the simulated blockage and releasing the victims, students use a hydraulic rescue tool: pliers, pliers, and air jacks, pneumatic jacks, pneumatic cushions, and to stabilize and balance the simulator modules, for example, timber, bricks and etc. Replaceable elements 7 are destroyed in two ways: by cutting under the influence of an expander or by cutting with hydraulic scissors. Pieces of metal rods 6 for extracting the dummy simulating the victim are cut off with hydraulic scissors. Erroneous and inconsistent actions when lifting the modules of the simulator simulating broken building structures (excessive angle of inclination during lifting, lack of safety stops) will lead to a change in the center of gravity, as a result, the simulator may move, slide off the hydraulic unclamp or from the support. Also, when lifting the simulator, the modules can be stacked with each other. For the next use of the simulator, its configuration is restored by connecting the metal fastening elements 4 in the form of loops with replaceable elements 7. Either the modules are configured differently, connecting with other faces, or shifting the modules in the plane relative to each other.

Based on the results of research tests during training at training facilities for training personnel of the fire service, the manufactured experimental model of the simulator for testing methods for releasing victims who are in the blockage from building structures showed the operability of the proposed design. The test results of the proposed simulator as a whole confirmed its effectiveness for training sessions to develop methods and techniques for clearing blockages from large-block building structures and releasing the victims.

Claims (5)

1. A simulator for testing methods for releasing victims located in a blockage from building structures, characterized in that it contains modules connected by a hinged chain connection with destructible connecting elements, each module is made in a shape close to a flat parallelepiped with a base in a shape close to a trapezoid , and on each side face it has metal fastening elements in the form of mounting loops, and the distances between these fastening elements are the same. 2. A simulator for practicing methods of releasing victims who are in a blockage from building structures, according to claim 1, characterized in that it contains N-modules, where N=2, 3, 4 ... 3. A simulator for practicing methods of releasing victims who are in a blockage from building structures, according to claim 1, characterized in that the modules are made of concrete with embedded fasteners. 4. A simulator for practicing methods of releasing victims who are in a blockage from building structures, according to claim 1, characterized in that the destructible connecting elements are made replaceable. 5. A simulator for testing methods for releasing victims who are in a blockage from building structures, according to claim 1, characterized in that one of the modules is equipped with fixation elements fixed on one of the bases, designed for fastening at an angle to the surface of the specified base, close to 90 °, replaceable pieces of metal rods.

Images