CN205569559U

CN205569559U - Gaseous intelligent automatic flame arrestor of oxyhydrogen

Info

Publication number: CN205569559U
Application number: CN201620424346.9U
Authority: CN
Inventors: 周后伍; 肖国彪; 代志云; 何佳娟; 尹小炎
Original assignee: Changsha Hightech Zone Okay Energy Equipment Co Ltd
Current assignee: Hunan Walker Energy Technology Co Ltd
Priority date: 2016-05-11
Filing date: 2016-05-11
Publication date: 2016-09-14
Anticipated expiration: 2026-05-11

Abstract

The utility model discloses a gaseous intelligent automatic flame arrestor of oxyhydrogen, end firetube, cooling gas outlet duct and outlet duct including oxyhydrogen induction pipe, cooling gas induction pipe, first only firetube, connecting pipe, second, the oxyhydrogen induction pipe through being connected with the connecting pipe with the first firetube that ends, the connecting pipe passes through the second and ends the firetube and be connected with the outlet duct, is equipped with the into gaseous solenoid valve of oxyhydrogen on the oxyhydrogen induction pipe, the cooling conductance go into the union coupling on the oxyhydrogen induction pipe, the tie point lies in into that the gaseous solenoid valve of oxyhydrogen ends between the firetube with first, cools off to be equipped with into cooling gas solenoid valve on the gas induction pipe, cooling gas outlet duct is connected on the outlet duct, the row of being equipped with cooling gas solenoid valve on the cooling gas outlet duct, the second end and be equipped with the control by temperature change probe on the firetube, the control by temperature change probe, advance the gaseous solenoid valve of oxyhydrogen, advance the cooling gas solenoid valve and arrange the cooling gas solenoid valve and be connected with the temperature controller respectively. The utility model discloses simple structure can effectively prevent hydrogen oxygen combustion's tempering.

Description

A kind of hydrogen or oxygen gas intelligence fireproof tempering device automatically

Technical field

This utility model relates to a kind of hydrogen or oxygen gas intelligence fireproof tempering device automatically.

Background technology

Oxyhydrogen flame rifle is formed oxyhydrogen flame rifle by barral of a gun, nozzle, gun rack, control valve, built-in security device etc. and is made up of barral of a gun, nozzle, gun rack, control valve, built-in security device etc..In use, prevent oxyhydrogen combustion flashback is the key used safely to oxyhydrogen machine, if oxyhydrogen combustion flashback enters electrolysis hydrogen oxygen outlet side, it will causes oxyhydrogen machine blast, brings huge harm.

Summary of the invention

In order to solve above-mentioned technical problem, this utility model provides a kind of simple in construction, can improve the hydrogen or oxygen gas intelligence fireproof tempering device automatically of oxyhydrogen machine safety.

This utility model solves the technical scheme of above-mentioned technical problem: include oxyhydrogen ingress pipe, cooling gas ingress pipe, the first fire-stopping pipe, connecting tube, the second fire-stopping pipe, cooling gas escape pipe and escape pipe；Described oxyhydrogen ingress pipe is by being connected with connecting tube with the first fire-stopping pipe；Connecting tube is connected with escape pipe by the second fire-stopping pipe, and oxyhydrogen ingress pipe is provided with into hydrogen or oxygen gas electromagnetic valve；Described cooling gas ingress pipe is connected on oxyhydrogen ingress pipe, and junction point is entering between hydrogen or oxygen gas electromagnetic valve and the first fire-stopping pipe, and cooling gas ingress pipe is provided with into cooling gas solenoid valve；Cooling gas escape pipe is connected on escape pipe, and cooling gas escape pipe is provided with row's cooling gas solenoid valve；The second described fire-stopping pipe is provided with temperature probe, temperature probe, enters hydrogen or oxygen gas electromagnetic valve, enters to cool down gas solenoid valve and row's cooling gas solenoid valve is connected with temperature controller respectively.

In above-mentioned hydrogen or oxygen gas intelligence fireproof tempering device automatically, the first described fire-stopping pipe includes fire-stopping pipe overcoat and the most fiery cover；The tubulose that described only fire cover is closed for one end, only fire cover is arranged in fire-stopping pipe overcoat, and only the tube wall of fire cover is provided with passage, a diameter of 0.1-10 nanometer of passage；Only the opening of fire cover is provided with the through hole connecting oxyhydrogen ingress pipe；The through hole being provided with for connecting connecting tube, the gap between this through hole connection fire-stopping pipe overcoat and only fire cover is put outside fire-stopping pipe.

In above-mentioned hydrogen or oxygen gas intelligence fireproof tempering device automatically, the second described fire-stopping pipe includes fire-stopping pipe overcoat and the most fiery cover；The tubulose that described only fire cover is closed for one end, only fire cover is arranged in fire-stopping pipe overcoat, and only the tube wall of fire cover is provided with passage, a diameter of 0.1-10 nanometer of passage；Only the opening of fire cover is provided with the through hole connecting connecting tube；The through hole being provided with for connecting escape pipe, the gap between this through hole connection fire-stopping pipe overcoat and only fire cover is put outside fire-stopping pipe；Put outside described fire-stopping pipe and be provided with thermometer hole, the gap between thermometer hole connection fire-stopping pipe overcoat and only fire cover；Temperature probe is arranged in thermometer hole.

In above-mentioned hydrogen or oxygen gas intelligence fireproof tempering device automatically, only fire cover is formed by metal powder sintered.

In above-mentioned hydrogen or oxygen gas intelligence fireproof tempering device automatically, also including malfunction indicator lamp, malfunction indicator lamp is connected with temperature controller.

Compared with prior art, the beneficial effects of the utility model are: the tube wall of only fire cover of the present utility model is provided with the passage that a diameter of 0.1-10 receives, the effective burning velocity stoped or delay oxyhydrogen, simultaneously, temperature probe of the present utility model passes to temperature controller, temperature controller instruction closed electromagnetic valve the signal that only fire cover temperature rises in time, cuts off source of the gas, effectively stop the tempering of oxyhydrogen burning, improve the processing safety of oxyhydrogen machine.

Accompanying drawing explanation

Fig. 1 is structural representation of the present utility model.

Fig. 2 is the structural representation of the 3rd fire-stopping pipe of the present utility model.

Detailed description of the invention

Below in conjunction with the accompanying drawings this utility model is described in further detail.

As it is shown in figure 1, this utility model includes oxyhydrogen ingress pipe 1, hydrogen or oxygen gas electromagnetic valve the 2, first fire-stopping pipe the 3, first connecting tube the 14, second fire-stopping pipe the 31, second connecting tube the 15, the 3rd fire-stopping pipe 13, temperature probe 5, escape pipe 6, temperature controller 7, malfunction indicator lamp 8, enters to cool down gas solenoid valve 9, row's cooling gas solenoid valve 10 and cooling gas ingress pipe 12；Described oxyhydrogen ingress pipe 1 is by being connected with the first connecting tube 14 with the first fire-stopping pipe 3；First connecting tube 14 is connected with the second connecting tube 15 by the second fire-stopping pipe 31, and the second connecting tube 15 is connected with escape pipe 6 by the 3rd fire-stopping pipe 13.Oxyhydrogen ingress pipe 1 is provided with into hydrogen or oxygen gas electromagnetic valve 2；Described cooling gas ingress pipe 11 is connected on oxyhydrogen ingress pipe 1, and junction point is entering between hydrogen or oxygen gas electromagnetic valve 2 and the first fire-stopping pipe 3, and cooling gas ingress pipe 11 is provided with into cooling gas solenoid valve 9.Cooling gas escape pipe 12 is connected on escape pipe 6, cooling gas escape pipe 12 row of being provided with cooling gas solenoid valve 10.The 3rd described fire-stopping pipe 13 is provided with temperature probe 5, temperature probe 5, enters hydrogen or oxygen gas electromagnetic valve 2, enters to cool down gas solenoid valve 9 and row's cooling gas solenoid valve 10 is connected with temperature controller 7 respectively.Second fire-stopping pipe 31, the second connecting tube 15 can not want, and the first fire-stopping pipe 3 is connected with the 3rd fire-stopping pipe 13 by the first connecting tube 14.

As in figure 2 it is shown, the 3rd fire-stopping pipe 13 of the present utility model includes fire-stopping pipe overcoat 16 and the most fiery cover 17；The tubulose that described only fire cover 17 is closed for one end, only fire cover 17 is arranged in fire-stopping pipe overcoat 16, and only the tube wall of fire cover 17 is provided with passage, a diameter of 0.1-10 nanometer of passage.Only the opening of fire cover 17 is provided with the through hole of the second connecting tube 15.Fire-stopping pipe overcoat 16 is provided with the through hole for connecting escape pipe 6, the gap between this through hole connection fire-stopping pipe overcoat 16 and only fire cover 17.Described fire-stopping pipe overcoat 16 is provided with thermometer hole, the gap between thermometer hole connection fire-stopping pipe overcoat 16 and only fire cover 17；Temperature probe 5 is arranged in thermometer hole.

The first described fire-stopping pipe 3 is identical with the structure of the second fire-stopping pipe 31, is only not have thermometer hole compared to the 3rd fire-stopping pipe 13.Including fire-stopping pipe overcoat 16 and the most fiery cover 17；The tubulose that described only fire cover 17 is closed for one end, only fire cover 17 is arranged in fire-stopping pipe overcoat 16, and only the tube wall of fire cover 17 is provided with passage, a diameter of 0.1-10 nanometer of passage.Only the opening of fire cover 17 is provided with connection oxyhydrogen ingress pipe 1 or the through hole of the first connecting tube 14.Fire-stopping pipe overcoat 16 is provided with for connecting the first connecting tube 14 or through hole of the second connecting tube 15, the gap between this through hole connection fire-stopping pipe overcoat 16 and only fire cover 17.

Claims

1. a hydrogen or oxygen gas intelligence fireproof tempering device automatically, is characterized in that: include oxyhydrogen ingress pipe, cooling gas ingress pipe, the first fire-stopping pipe, connecting tube, the second fire-stopping pipe, cooling gas escape pipe and escape pipe；Described oxyhydrogen ingress pipe is by being connected with connecting tube with the first fire-stopping pipe；Connecting tube is connected with escape pipe by the second fire-stopping pipe, and oxyhydrogen ingress pipe is provided with into hydrogen or oxygen gas electromagnetic valve；Described cooling gas ingress pipe is connected on oxyhydrogen ingress pipe, and junction point is entering between hydrogen or oxygen gas electromagnetic valve and the first fire-stopping pipe, and cooling gas ingress pipe is provided with into cooling gas solenoid valve；Cooling gas escape pipe is connected on escape pipe, and cooling gas escape pipe is provided with row's cooling gas solenoid valve；The second described fire-stopping pipe is provided with temperature probe, temperature probe, enters hydrogen or oxygen gas electromagnetic valve, enters to cool down gas solenoid valve and row's cooling gas solenoid valve is connected with temperature controller respectively.

Hydrogen or oxygen gas the most according to claim 1 intelligence fireproof tempering device automatically, it is characterised in that: the first described fire-stopping pipe includes fire-stopping pipe overcoat and the most fiery cover；The tubulose that described only fire cover is closed for one end, only fire cover is arranged in fire-stopping pipe overcoat, and only the tube wall of fire cover is provided with passage, a diameter of 0.1-10 nanometer of passage；Only the opening of fire cover is provided with the through hole connecting oxyhydrogen ingress pipe；The through hole being provided with for connecting connecting tube, the gap between this through hole connection fire-stopping pipe overcoat and only fire cover is put outside fire-stopping pipe.

Hydrogen or oxygen gas the most according to claim 1 intelligence fireproof tempering device automatically, it is characterised in that: the second described fire-stopping pipe includes fire-stopping pipe overcoat and the most fiery cover；The tubulose that described only fire cover is closed for one end, only fire cover is arranged in fire-stopping pipe overcoat, and only the tube wall of fire cover is provided with passage, a diameter of 0.1-10 nanometer of passage；Only the opening of fire cover is provided with the through hole connecting connecting tube；The through hole being provided with for connecting escape pipe, the gap between this through hole connection fire-stopping pipe overcoat and only fire cover is put outside fire-stopping pipe；Put outside described fire-stopping pipe and be provided with thermometer hole, the gap between thermometer hole connection fire-stopping pipe overcoat and only fire cover；Temperature probe is arranged in thermometer hole.

4. according to the hydrogen or oxygen gas intelligence fireproof tempering device automatically described in Claims 2 or 3, it is characterised in that: only fire cover is formed by metal powder sintered.

Hydrogen or oxygen gas the most according to claim 1 intelligence fireproof tempering device automatically, it is characterised in that: also including malfunction indicator lamp, malfunction indicator lamp is connected with temperature controller.