RU2218955C2 - Device for fire end explosion prevention during liquid combustible and chemical materials using and transportation - Google Patents

Abstract

FIELD: equipment for protection during combustible and chemical materials (CCM) using. SUBSTANCE: device has vessel for CCM and for breakable capsule with neutralizing material. Capsule breaks in response to analyzer signal. Analyzer generates signal after analyzing of information received from CCM leak sensor, temperature sensor and seismic sensor. Seismic sensor and temperature sensor are integrated into vessel inner body, CCM leak sensor is installed on vessel inner body. EFFECT: enhanced sensitivity and increased operating speed. 2 cl, 1 dwg

Description

 The invention relates to various fields of technology and human life, which provides for the consumption of liquid combustible and chemical materials.

 A device for preventing fire and explosion of liquid combustible and chemical materials during their use and transportation (see US patent 3835930 from 09/17/1974), containing a shell with a neutralizing agent, placed in a container with the material, and a temperature sensor.

 A disadvantage of the known device is its low functionality, because it contains only one security criterion.

 The technical result to which the invention is directed is to expand the functionality of the device to prevent fire and explosion by increasing the criteria for assessing the possibility of fire and explosion of combustible and chemical materials.

 This result is achieved by the fact that the known device is additionally equipped with a seismic sensor, a material leakage sensor and a dangerous situation analyzer connected with an output to the input of the executive body, which is capable of breaking the shell by the analyzer signal, while the outputs of all sensors are connected to the analyzer inputs, the capacitance is double case, in the inner case of which the seismic sensor and temperature sensor are mounted, and the leakage sensor is installed on the surface of the inner case.

 A seismic sensor may include a container damage sensor with material, a container shock sensor and a container pressure sensor, and may, like a temperature sensor, be integrated into the internal container body.

 A material leakage sensor can be mounted on the surface of the container’s inner case. The invention is characterized by all the features given in the claims.

 The invention is illustrated in the drawing.

 The device for preventing fire and explosion contains a container 1 with a double case and a neck 2, in which liquid combustible and chemical materials are transported, a shell 3 with a neutralizing agent located in the tank 1, a dangerous situation analyzer 4 connected to the outputs of the GCM leakage sensor 5 , temperature sensor 6 and seismic sensor 7. The seismic sensor includes a sensor for damage to the container, a sensor for shock of the container, a pressure sensor for the container. The seismic sensor 7 and the temperature sensor 6 are mounted in the inner case of the tank 1, and the leakage sensor 5 is mounted on the surface of the inner case, this arrangement increases the sensitivity and speed of the device, which is proved experimentally.

 The device operates as follows.

 The entry of substances into the reaction is provided by a hazard analyzer that assesses the risk of exposure to a tank with GCM.

 Due to external influences on a container with GCM, this substance instantly reacts with a neutralizing agent (VL) to form a third substance that is neutral to combustion or explosion.

Example 1 (car accident)
In a car accident, the following factors affect the capacity and the GC:
- hit;
- pressure;
- high temperature (as a result of friction or deformation of the tank).

 The drawing shows the sensors, providing timely signal from the analyzer of a dangerous situation to the destruction of the HV shell, i.e. provide an instant reaction to neutralize flammable vapors and fuels.

 A similar scheme is applicable in the case of transportation of GCM in tanks of cars and freight trains.

 The composition of the HV depends on the transported explosive GCM.

Example 2 (plane crash)
In a plane crash that happened in the air, the following factors affect the tank and the GC:
- hit;
- high temperature (as a result of engine fire or fire on board).

 The difference from Example 1 is that in this case, to reduce the risk of an explosion during an airplane landing / crash, the aircraft commander can begin the process of neutralizing the GCM without first triggering any sensor by turning on the analyzer of a dangerous situation for the destruction of the HV shell, i.e. manually, and not expect the analyzer to automatically trigger a dangerous situation when landing / falling aircraft

In a plane crash that occurred when an aircraft crashes, the following factors affect the capacity and the GC:
- hit;
- pressure;
- heat.

 In this case, the process described in Example 1 is applicable.

Example 3 (industrial accident)
In the event of an accident that occurred at a GCM facility or at their storage sites, the following factors affect the tank and the GCM:
- hit;
- pressure;
- heat.

 In this case, the process described in Example 1 is applicable.

 In all three cases, the same GCM neutralization scheme was used - it is universal for all cases of using GCM.

Claims (2)

1. A device for preventing fire and explosion during the use and transportation of liquid combustible and chemical materials, containing a shell with a neutralizing agent placed in a container with a material, and a temperature sensor, characterized in that a seismic sensor, a material leakage sensor, and an hazardous analyzer are introduced into it situations and the executive body, and the mentioned capacity is made with a double case, while the outputs of all sensors are connected to the inputs of the analyzer, and the output of the analyzer is connected to the input of the executive body, connected a neutralizing agent connected to the casing and configured to destroy the casing according to the analyzer signal, while the seismic sensor and the temperature sensor are mounted in the container’s inner case, and the leakage sensor is mounted on the surface of the inner case. 2. The device according to claim 1, characterized in that the seismic sensor includes a container damage sensor with material, a container shock sensor and a container pressure sensor.