CN215987650U - Real fire rescue training system - Google Patents

Abstract

The utility model provides a real fire rescue training system, which comprises a multilayer structure, a first container, a second container, a third container and a safety monitoring system, wherein the multilayer structure comprises the first container, the second container and the third container; first container and second container set up side by side and all set up the control computer lab at first layer and the two both ends, the third container is established in the second floor top, one end is equipped with the operation computer lab other end and is equipped with the cigarette heat training room, and the balcony that sets up is used for climbing rescue training, set up inflammable matter fire point in the first container, electric fire point is used for basic rescue training of putting out a fire, the second container sets up and dodges the fire point, oil machine tool fire point and locker fire point, a capability for improving the training and put out a fire and search and rescue, the third container is provided with window and grid isolated labyrinth and is used for searching and rescuing and training. Through designing a plurality of training areas, realize putting out a fire, searching for and rescuing, the combination of a plurality of tasks such as climbing to through intelligent control, guarantee its practicality and security, reach the effect of hierarchical actual combat training.

Description

Real fire rescue training system

Technical Field

The utility model relates to the technical field of fire rescue, in particular to a real fire rescue training system.

Background

The loss caused by various disasters such as fire, earthquake, explosion and the like to human life and property can not be measured, the disasters inevitably occur, how to effectively rescue the disasters becomes the only way for reducing the loss of the disasters, and if the disasters can effectively and timely rescue the disasters in the initial stage, the loss of economic property and life and property can be greatly reduced. The rescue workers are required to have extremely high professional skills and psychological qualities which are far from sufficient only by accumulation in actual combat, and the ordinary skill training cannot actually improve the capability in rescue actual combat.

Therefore, in order to comprehensively improve physical and psychological qualities of rescuers, improve rescue skills and improve reaction capability, an integrated system is needed. The existing rescue training system has single function, a training program and a training route are fixed and can not be changed, the disaster site environment can not be simulated really, and training personnel have no on-site crisis psychology, so that the training effect can not be evaluated accurately.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problems and provides a real fire rescue training system, which realizes the combination of multiple tasks such as fire extinguishing, search and rescue, climbing and the like by designing multiple training areas, ensures the practicability and safety of the system through intelligent control, achieves the effect of classified actual combat training, and provides a real fire rescue training system which can comprehensively improve the physical and psychological qualities of rescuers, improve rescue skills and improve reaction capability.

In order to achieve the purpose, the technical scheme of the utility model is as follows:

the application provides a real fire rescue training system which is of a multilayer structure and comprises a plurality of containers, wherein the containers are provided with smoke outlets, and each container comprises a first container, a second container and a third container; the first container and the second container are arranged on the first layer side by side, two ends of the first container and the second container are provided with independent control machine rooms, the third container is arranged on the second layer, and the control machine rooms comprise gas bottles; the first container comprises a first training area, the first training area comprises an inflammable model, an easily falling object and an electrical equipment model, ignition devices are arranged on the inflammable model and the electrical equipment model to form an easily-burning fire point for fire extinguishing rescue training, the control machine room controls the on and off of the ignition devices and controls the simulation reaction of flame to fire extinguishing agents, and the gas bottle provides gas for the ignition devices through a gas pipeline; the second container includes a second training area and a third training area, the second training area including the ignition device that produces a flash fire; a simulated negative pressure valve is arranged at the joint of the second training area and the first training area; the second training zone communicates the first training zone and the third training zone; the third training area comprises an oily processing machine tool and a storage cabinet, wherein the oily processing machine tool and the storage cabinet are both provided with the ignition device and form a combustion fire point; the second container is provided with a stair for communicating with the third container, the third container comprises a fourth training area and a fifth training area, the fourth training area is provided with a window entering the fourth training area for Danver rescue training, the fourth training area is provided with a grid partition type maze for search and rescue training, and the fifth training area is provided with a pipeline for pipeline rescue training; one end of the third container is provided with an operation machine room for controlling the safety monitoring system arranged inside the first container, the second container and the third container, the other end of the safety monitoring system is provided with a smoke and heat training room, the top of the safety monitoring system is provided with a balcony, and the balcony is provided with an inclined plane for climbing rescue training.

In this application, true fire rescue training system is multilayer structure, and first container, second container and third container can plan different routes according to the needs of training, carry out the training mode in grades. The first container and the second container are arranged side by side and are positioned on the same layer and can be used for the primary training of a new soldier; the third container is established on the second floor, and in the first container, second container and third container can be used to the actual combat of middling and promote the training, the balcony that sets up in third container top, in the first container, second container and third container and balcony can be used to the high-level regular examination training. The setting of control computer lab is arranged in the training condition of control first container and the inside second container, ensures training personnel's safety and the effect of training. The first training area is a scene simulating an office, is provided with two fire points, and is arranged on a combustible model at a first position for basic fire extinguishing training of training personnel; the second place is arranged on the computer equipment model, and the switch is required to be turned off before the computer equipment model is put out of fire, otherwise, the alarm is given; the setting of the falling object reminds the training personnel to spray the ceiling before entering the field, and the falling object is simulated. The second training district is the corridor, and the simulation negative pressure gate that the second training district set up is used for training release pressure, and the ignition device that glimmers can take place the flash combustion, supplies training personnel to train the cooling. The third training district is provided with two ignition centers, and inside includes oil machine tool and locker, and first department sets up oil machine tool can produce oil fire, and the oily fire of training is put out a fire, requires training personnel to cool down the water smoke, and the direct injection fire extinguishing agent that does not cool down can produce the effect of bombing of water oil. The second place sets up in the locker for put out a fire in the training cabinet, requires training personnel to open the cabinet door after the cooling and puts out a fire. The setting of stair requires training personnel to visit the step in order to prevent that the stair structure is impaired, the cooperation that has the window of a plurality of training personnel of requirement of fourth training district setting is crossed the window and is rescued, gets into the inside maze of fourth training district and searches for and rescues the training, and the fifth training district is provided with the pipeline and is used for pipeline rescue training. The smoke and heat training room is used for training the smoke and heat training of personnel. The roof is arranged for high-level regular examination and training, and rescue on the inclined plane of the roof is carried out through rope climbing. Through designing a plurality of training areas, realize putting out a fire, searching for and rescuing, the combination of a plurality of tasks such as climbing to through intelligent control, guarantee its practicality and security, reach hierarchical actual combat training's effect, provide one kind and improve first-aid staff's health, psychological quality comprehensively, improve rescue skill, improve reaction capacity.

Optionally, the second training area is a corridor, a corridor entrance is arranged on the corridor, the simulated negative pressure door is arranged on one side of the corridor, a corridor exit is arranged on one side of the corridor, and the corridor exit is communicated with the inside of the second container.

Optionally, the third training area further comprises a shelf, the shelf being in a collapsed state.

Optionally, the third training area, the fourth training area and the fifth training area are provided with human-shaped molds.

Optionally, the pipeline includes a plurality of criss-cross intersecting pipelines, the transverse pipeline performs training of pipeline search and rescue tasks, and the longitudinal pipeline penetrates through the balcony to perform training of simulated underground survey tasks.

Optionally, both ends of the third container are connected with a bottom-up stair.

Optionally, the first container, the second container and the third container are all provided with security doors.

Optionally, a ladder stand is provided on one side of the third container.

Drawings

FIG. 1 is a schematic diagram of a first angle of a real fire rescue training system of the present invention;

FIG. 2 is a schematic diagram of a second angle of the present invention;

fig. 3 is a schematic view of the internal structure of a first container according to the present invention;

fig. 4 is a first angle internal view of a second container of the present invention;

fig. 5 is a second angle internal view of a second container of the present invention;

fig. 6 is a third angle internal view of a second container according to the present invention;

fig. 7 is a first angle internal view of a third container of the present invention;

fig. 8 is a second-angle internal structure diagram of a third container according to the present invention.

Detailed Description

In order to make the objects, features and advantages of the present invention more apparent and understandable, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present application, and it is apparent that the embodiments described below are only a part of the embodiments of the present application, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

Referring to fig. 1 to 8, a real fire rescue training system is provided in an embodiment of the present application, and the real fire rescue training system is a multi-layer structure and includes a plurality of containers, each of the plurality of containers is provided with a smoke outlet 123, and the containers include a first container 1, a second container 2, and a third container 3; the first container 1 and the second container 2 are arranged in parallel on a first floor, two ends of the first container and the second container are both provided with independent control machine rooms 12, the third container 3 is arranged on a second floor, and the control machine rooms 12 comprise gas bottles; the first container 1 comprises a first training area 11, the first training area 11 comprises a combustible model 111, an easily falling object 112 and an electronic equipment model 113, ignition devices 114 are arranged on the combustible model 111 and the electronic equipment model 113 respectively, an easily burning fire point is formed for fire extinguishing rescue training, the control machine room 12 controls the on and off of the ignition devices 114, and the gas bottle 121 provides gas for the ignition devices 114 through arranged gas pipelines; the second container 2 comprises a second training area 22 and a third training area 23, the second training area 22 comprising the ignition device 114 generating a flash ignition point; a simulated negative pressure gate 221 is arranged at the joint of the second training area and the first training area, and the second training area 22 is communicated with the first training area 11 and the third training area 23; the third training area 23 comprises an oily processing machine 231 and a storage cabinet 233, wherein the oily processing machine 231 and the storage cabinet 233 are both provided with the ignition device 114 and form a combustion ignition point; the second container 2 is provided with a staircase 234 for communicating with the third container 3, the third container 3 comprises the fourth training area 34 and a fifth training area 35, the fourth training area 34 is provided with a window 342 for entering the fourth training area 34, the fourth training area 34 is provided with a grid-partitioned maze 341 for search and rescue training, and the fifth training area 35 is provided with a pipeline 351 for pipeline rescue training; one end of the third container 3 is provided with an operation machine room 36 for controlling the safety monitoring system (not shown in the figure) arranged inside the first container 1, the second container 2 and the third container 3, the other end of the third container is provided with a smoke and heat training room 37, the top of the third container is provided with a balcony 38, and the balcony 38 is provided with an inclined plane 381 for climbing rescue training.

Preferably, in this embodiment, the second training area 22 is a corridor, the simulated negative pressure door is disposed on one side of the corridor, a corridor entrance 222 is disposed on the corridor, a corridor exit 223 is disposed on one side of the corridor, and the corridor exit 223 is communicated with the inside of the second container 2. Training personnel enter the second training area 22 through the corridor entrance 222 and enter the third training area 23 from the corridor exit 223.

Preferably, in this embodiment, the third training area 23 further includes a shelf 232, and the shelf 232 is in a collapsed state. The collapsed pallet is placed between the oil machine 231 and the storage cabinet 233, and trainers need to climb over the pallet 232 and then perform the next task to train trainers in handling the field situation in a dangerous situation.

Preferably, in this embodiment, the third training area 23, the fourth training area 34 and the fifth training area 35 are provided with a human-shaped mold 100. The human-friendly mold 100 is used for simulating a real person, so that a real field condition is created, the human-friendly mold is closer to a training effect, and the psychology of training personnel is tested.

Preferably, the pipeline 351 in this embodiment includes a plurality of pipelines intersecting vertically and horizontally, the horizontal pipeline performs the training of pipeline search and rescue tasks, and the vertical pipeline penetrates the balcony to perform the training of simulated downhole survey tasks. The arrangement of the plurality of pipelines which are intersected vertically and horizontally can truly simulate scenes of shaft search and rescue, transverse pipeline search and rescue and downhole rescue, so that trainers can have rescue capability under different conditions to deal with emergency situations.

Preferably, in this embodiment, both ends of the third container 3 are connected to a bottom-up staircase 101. The stairway 101 facilitates the access of trainees or commanders to the operating room 36 and the smoke and heat training room 37 at both ends of the third container 3.

Preferably, in the present embodiment, the first container 1, the second container 2 and the third container 3 are all provided with a security door 102. The safety door 102 is used for facilitating escape of training personnel when emergency occurs to the container, and safety guarantee measures of the real fire rescue training system are improved.

Preferably, a ladder 103 is provided on one side of the third container 3 in this embodiment. After the trainer trains tasks in the third container 3, the trainer can climb the ladder to the balcony to perform climbing training and balcony rescue training, and the psychological quality and rescue ability of the trainer are greatly examined and trained.

In the embodiment of the application, the real fire rescue training system is of a multilayer structure, and the first container 1, the second container 2 and the third container 3 can plan different routes according to the training requirements to carry out a hierarchical training mode. The first container 1 and the second container 2 are arranged side by side and are positioned at the same layer, so that the first container and the second container can be used for the primary training of a new soldier, and the first container and the second container are accessed through a security door 102 arranged on the first container 1; the third container 3 is established on the second floor, and in the first container 1, second container 2 and third container 3 can be used to the actual combat of intermediate level and promote the training, the balcony 38 that sets up above the third container 3, in the first container 1, second container 2 and third container 3 and balcony 38 can be used to the high-level periodic examination training. The control machine room 12 is used for controlling the training conditions in the first container 1 and the second container 2, and ensuring the safety of training personnel and the training effect. The first training area 11 is a scene simulating an office and is provided with two fire points, and the first point is arranged on the inflammable model 114 and is used for basic fire extinguishing training of training personnel; the second position is arranged on the computer equipment model 113, and the switch is required to be turned off before the computer equipment model 113 is put out a fire, otherwise, the alarm is given; the setting of the falling object 112 reminds the trainee to spray the ceiling before entering the field, and the falling object 112 is simulated to be hit. The second training area 22 is a corridor, the simulated negative pressure 221 door arranged in the second training area 22 is used for training release pressure, and the flashing ignition device 114 can flash to train training personnel for cooling. The third training district 23 is provided with two fire points, and inside includes oil machine tool 231 and locker 233, and first department sets up on the oil machine tool 231, can produce oil fire, and the training is to the fire extinguishing of oil fire, requires training personnel to want the water smoke cooling, then crosses collapse goods shelves 232, the second department sets up in locker 233 for the training of putting out a fire in the training cabinet. The stair 234 is arranged to require training personnel to walk to prevent the stair structure from being damaged, the window 342 arranged in the fourth training area 34 requires the cooperation of a plurality of training personnel to climb over the window 342 for rescue, the training personnel enter the mesh grid partition type maze 341 in the fourth training area 34 to perform search and rescue training and rescue humanoid mold 100, and the fifth training area 35 is provided with a pipeline 351 for pipeline rescue training. The smoke and heat training room 37 is used for training a person for smoke and heat training. The arrangement of the roof 38 is used for advanced regular assessment training, and the roof slope 381 rescue the humanoid model 100 by climbing with a hanging rope. Through designing a plurality of training areas, realize putting out a fire, searching for and rescuing, the combination of a plurality of tasks such as climbing to through intelligent control, guarantee its practicality and security, reach the effect of hierarchical actual combat training, provide one kind and improve first-aid staff's health, psychological quality comprehensively, improve rescue skill, improve reaction ability, with the comprehensive simulation training system of rescue of the training environment of comprehensive simulation actual combat.

In the description of the embodiments of the present application, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience in describing the embodiments of the present application and simplifying the description, but do not indicate or imply that the referred devices or elements must have specific orientations, be configured in specific orientations, and operate, and thus, should not be construed as limiting the embodiments of the present application. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the embodiments of the present application, it should be noted that the terms "mounted," "connected," and "connected" are used broadly and are defined as, for example, a fixed connection, an exchangeable connection, an integrated connection, a mechanical connection, an electrical connection, a direct connection, an indirect connection through an intermediate medium, and a communication between two elements, unless otherwise explicitly stated or limited. Specific meanings of the above terms in the embodiments of the present application can be understood in specific cases by those of ordinary skill in the art.

The above embodiments are only used for illustrating the technical solutions of the present application, and not for limiting the same; although the present application has been described in detail with reference to the foregoing embodiments, it should be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions in the embodiments of the present application.

Claims (8)

1. A real fire rescue training system is characterized in that the real fire rescue training system is of a multilayer structure and comprises a plurality of containers, each container is provided with a smoke outlet, and each container comprises a first container, a second container and a third container;

the first container and the second container are arranged on the first layer side by side, two ends of the first container and the second container are provided with independent control machine rooms, the third container is arranged on the second layer, and the control machine rooms comprise gas bottles;

the first container comprises a first training area, the first training area comprises a combustible model, an easily falling object and an electronic equipment model, ignition devices are arranged on the combustible model and the electronic equipment model, the ignition devices form a combustible fire point and an electric fire point and are used for fire-extinguishing rescue training, the control machine room controls the ignition devices to be turned on and off, and the gas bottle provides gas for the ignition devices through a gas pipeline;

the second container comprises a second training area and a third training area, the second training area comprises the ignition device for generating a flash ignition point, a simulated negative pressure valve is arranged at the joint of the second training area and the first training area, and the second training area is communicated with the first training area and the third training area; the third training area comprises an oily processing machine tool and a storage cabinet, wherein the oily processing machine tool and the storage cabinet are both provided with the ignition device and form a combustion fire point;

the second container is provided with a stair for connecting the third container, the third container comprises a fourth training area and a fifth training area, the fourth training area is provided with a window entering the fourth training area for Danver rescue training, the fourth training area is provided with a grid partition type maze for search and rescue training, and the fifth training area is provided with a pipeline for pipeline rescue training;

one end of the third container is provided with an operation machine room for controlling the safety monitoring system arranged inside the first container, the second container and the third container, the other end of the safety monitoring system is provided with a smoke and heat training room, the top of the safety monitoring system is provided with a balcony, and the balcony is provided with an inclined plane for climbing rescue training.

2. A fire rescue training system as claimed in claim 1, wherein the second training area is a corridor, the simulated negative pressure door is disposed on one side of the corridor, a corridor inlet is disposed on the corridor, a corridor outlet is disposed on one side of the corridor, and the corridor outlet is communicated with the interior of the second container.

3. A live fire rescue training system as claimed in claim 1, wherein the third training area further comprises a shelf, the shelf being in a collapsed state.

4. A real fire rescue training system as claimed in claim 1, wherein the third and fourth training areas and the fifth training area are each provided with a humanoid form.

5. A real fire rescue training system as claimed in claim 1, wherein the pipeline comprises a plurality of pipes intersecting vertically and horizontally, the transverse pipeline is used for training pipeline search and rescue tasks, and the longitudinal pipeline runs through the balcony and is used for training simulated underground survey tasks.

6. A real fire rescue training system as claimed in claim 1, wherein both ends of the third container are connected to bottom-up stairs.

7. A fire rescue training system as claimed in claim 1, wherein the first, second and third containers are each provided with a security gate.

8. A fire rescue training system as claimed in claim 1, wherein a ladder is provided to one side of the third container.

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