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Fire extinguishing method for unattended equipment station

A technology of equipment stations and output pipes, applied in fire rescue and other directions, can solve problems such as property safety impacts, and achieve the effect of easy local automatic control

Inactive Publication Date: 2018-08-14
成都中机盈科科技有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0004] In view of the above-mentioned automatic monitoring sub-station for air quality, when the automatic air quality monitoring sub-station encounters a fire, due to the manual inspection system, it is generally impossible to ensure that the personnel are in place at the first time, so that the air quality will inevitably be affected. The property safety of the automatic monitoring substation has a serious impact. The present invention provides a fire extinguishing method for an unattended equipment station. The fire extinguishing system can extinguish the electronic equipment of the equipment station, and has the advantages of low cost of use and reliable fire extinguishing performance. features

Method used

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  • Fire extinguishing method for unattended equipment station

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0036] Such as figure 1 and figure 2 As shown, an unattended equipment station fire extinguishing method, step 1 uses the gas source pipe 10 as the connecting pipe between the gas source device 11 and the dry powder container 8, and the gas source pipe 10 is also connected in series with the first shut-off valve 9;

[0037] Step 2: Connect one end of the output pipe 5 to the dry powder container 8, and the other end of the output pipe 5 is provided with a nozzle 7; connect the third shut-off valve 2 in series on the output pipe 5;

[0038] Step 3: The first cut-off valve 9 and the third cut-off valve 2 are connected with a drive mechanism 3 for driving each to change the on-off state, and the drive mechanism 3 is an electric mechanism or a pneumatic mechanism;

[0039] In step 4, both the air source pipe 10 and the output pipe 5 are extended to the dry powder container 8 at one end, and the pipe section that both the air source pipe 10 and the output pipe 5 extend to the dry...

Embodiment 2

[0053] Such as figure 1 and figure 2 As shown, the present embodiment is further limited on the basis of Embodiment 1: as the specific outlet form of the air source pipe 10 and the inlet form of the output pipe 5, the outlet end of the air source pipe 10 and the inlet end of the output pipe 5 are both Provided with a sealing plate;

[0054] The outlet pipe holes of the air source pipe 10 are a plurality of holes provided on the wall of the air source pipe 10 , and the inlet pipe holes of the output pipe 5 are a plurality of holes provided on the pipe wall of the output pipe 5 . Adopting this scheme, compared with directly arranging pipe holes at the ends of the air source pipe 10 and the output pipe 5, by setting a plurality of holes on each as outlet holes or inlet holes, it is possible to affect the larger air flow in the dry powder pile when passing through the airflow. In this way, when hardening occurs in the dry powder pile, by increasing the influence area of ​​the a...

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Abstract

The invention discloses a fire extinguishing method for an unattended equipment station. A fire extinguishing system comprises a dry powder output system, wherein the dry powder output system comprises a gas source device, a dry powder container, an air source pipe and an output pipe; a first cut-off valve is further connected to the air source pipe in series; one end of the output pipe is connected with the dry powder container, and a nozzle is arranged at the other end of the output pipe; and the fire extinguishing system further comprises a third cut-off valve connected to the output pipe in series; the first cut-off valve and the third cut-off valve are connected with a driving mechanism for driving the first cut-off state and the second cut-off state to change; one end of the gas source pipe and one end of the output pipe extend into the dry powder container, and the pipe sections of the gas source pipe and the output pipe extending to in the dry powder container are cantilever pipe sections; and the outlet end of the gas source pipe is located above the inlet end of the output pipe, and the outlet end of the gas source pipe and the inlet end of the output pipe are positionedat the bottom of the dry powder container. The fire extinguishing system can extinguish a fire on electronic equipment of the equipment station, and has the characteristics of being low in using costand reliable in fire extinguishing performance.

Description

technical field [0001] The invention relates to the technical field of fire-fighting equipment, in particular to a fire-extinguishing method for an unattended equipment station. Background technique [0002] In the existing technology, with the development of communication technology and the increasing abundance of smart devices, many outdoor unattended workstations have appeared in the existing technology, such as monitoring stations for geological disaster monitoring in mountainous areas, and various process nodes in sewage treatment systems. Data collection stations, many air quality monitoring stations set up in urban areas, etc. The work of the above monitoring stations is closely related to people's production, life and health. With the deteriorating environment and ecology, people are more and more concerned about the living environment. Therefore, the normal work of the above monitoring stations and collection stations is very important. [0003] Taking the air qual...

Claims

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Application Information

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IPC IPC(8): A62C37/38
CPCA62C37/38
Inventor 杨佳志
Owner 成都中机盈科科技有限公司
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