CN211204108U - Novel ignition device - Google Patents

Abstract

The utility model discloses a novel ignition, which comprises a pipe, the high energy ignition cable, the ignition combustor, the blowout combustion section of thick bamboo, the high energy point firearm, pipe one end fixedly connected with air supply pipeline and air supply pipeline all set up in the protective tube with the high energy ignition cable, the pipe other end is connected with the liquefied gas storage tank, high energy ignition cable one end is connected with the high energy point firearm, the high energy point firearm passes through the ignition control cable and connects the high energy ignition controller, the high energy ignition cable other end all is connected with the ignition combustor with the air supply pipeline other end, be provided with multiunit pipeline support card on the protective tube, the protective tube passes through multiunit pipeline support card and connects the blowout pipeline, blowout prevention pipeline one end fixedly connected with blowout combustion section of thick. The utility model discloses have and to prevent that flame from being blown back by reverse wind and burn out device, security height, the size of the flame of going out can be adjusted, the beneficial effect of the energy can be saved, its mainly used oil and gas bores to adopt and gather defeatedly.

Description

Novel ignition device

Technical Field

The utility model belongs to the technical field of ignition, especially, relate to a novel ignition.

Background

During the exploration and development of oil and gas, the gas invasion is frequently encountered due to the complex bottom conditions. If the gas produced from the bottom layer is toxic gas, the personal safety of drilling construction personnel can be harmed, and especially when the produced gas is flammable and explosive gas, the safety of the whole drilling construction can be greatly influenced.

At present, three ignition modes, namely rod holding ignition, traditional ignition and electronic ignition, are usually adopted in open-blast ignition operation, and due to the influence of a plurality of factors such as wind direction, wind power, open-blast liquid drainage and the like, the phenomenon of intermittent supply of a fire source at an ignition port often occurs, and at the moment, the risk of personnel burning, burning and the like exists in the rod holding ignition mode because a person is close to the ignition port during ignition operation; the traditional ignition device pulls a steel wire rope by manpower, and sends an ignited oil container to the top end of an ignition pipeline, but the accidental situations of steel wire rope crossing, oil container overturning and the like are easily caused, the smooth ignition of an ignition port is not facilitated, after the primary ignition fails, the time required by the secondary ignition is long, and certain potential safety hazards exist; the electronic ignition has high automation degree, can adopt remote control operation, but because the electronic ignition does not have the existence of naked light and exposes for a long time under the external environment, the existence of mud, sand, water often leads to the electronic ignition to become invalid in the ignition mouth, makes the operation of igniting have the potential safety hazard, and electronic ignition device has defects such as complicated structure, manufacturing cost and use cost height simultaneously.

SUMMERY OF THE UTILITY MODEL

The utility model provides a novel ignition device aims at solving the above-mentioned problem that exists potential safety hazard, easy point or inefficacy, structure complicacy, inconvenient use.

The utility model discloses a realize like this, a novel ignition device, including pipe, high energy ignition cable, ignition combustor, blowout combustion section of thick bamboo, high energy point firearm, pipe one end fixedly connected with air supply pipeline just the air supply pipeline with high energy ignition cable all sets up in the protective tube, the pipe other end is connected with the liquefied gas storage tank, high energy ignition cable one end is connected with high energy point firearm, high energy point firearm passes through ignition control cable and connects high energy ignition controller, the high energy ignition cable other end with the air supply pipeline other end all is connected with the ignition combustor, be provided with multiunit pipeline support card on the protective tube, the protective tube passes through multiunit pipeline support card blowout pipeline, blowout pipeline one end fixedly connected with blowout combustion section of thick bamboo.

The guide pipe is a gas hose, the interval between the high-energy ignition controller and the pilot burner is 2m-4m, and the protective pipe is made of high-temperature-resistant materials.

The high-energy ignition cable in the protective tube is connected with an ignition rod through a bolt, and the ignition rod is connected with the ignition burner.

The protection pipe is provided with a reducing transition joint, a fire blocking wall is arranged on the protection pipe close to the ignition burner, the fire blocking wall is rectangular, and the other end of the open-flow combustion cylinder penetrates through the fire blocking wall.

The blowout pipeline is provided with a plurality of groups of mounting rings matched with the pipeline supporting clamps, and the pipeline supporting clamps are respectively connected with the mounting rings.

The pipeline support card is of a detachable structure and is made of high-temperature-resistant materials.

Compared with the prior art, the beneficial effects of the utility model are that: the fire-blocking wall arranged on the protective pipe and the other end of the open-flow combustion cylinder penetrate through the fire-blocking wall, so that flame can be prevented from being blown back to burn the device by reverse wind during working, meanwhile, the damage to people caused by overlarge flame is avoided, and the protection to people is improved; the high-energy igniter is connected with the high-energy ignition controller through the ignition control cable, the size of the flame can be adjusted, the high-energy igniter is convenient to use, energy is saved, and the safety of the device is improved.

Drawings

FIG. 1 is a schematic structural view of the present invention;

fig. 2 is a schematic view of the detail structure of fig. 1 a 0.

In the figure: the device comprises a guide pipe 1, a high-energy ignition cable 2, an air source pipeline 3, a protective pipe 4, a liquefied gas storage tank 5, a high-energy igniter 6, an ignition control cable 7, a high-energy ignition controller 8, an ignition burner 9, a pipeline supporting clamp 10, a blowout pipeline 11, a blowout combustion cylinder 12, an ignition rod 13, a reducing transition joint 14, a fire wall 15 and a mounting ring 16.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

In the description of the present invention, it is to be understood that the terms "length", "width", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on those shown in the drawings, and are merely for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. In addition, in the description of the present invention, "a plurality" means two or more unless specifically limited otherwise.

Referring to fig. 1-2, the present invention provides a technical solution: the utility model provides a novel ignition, including pipe 1, high energy ignition cable 2, pilot burner 9, blowout combustion section of thick bamboo 12, high energy point firearm 6, 1 one end fixedly connected with air supply pipeline 3 of pipe and air supply pipeline 3 all set up in protective tube 4 with high energy ignition cable 2, the 1 other end of pipe is connected with liquefied gas storage tank 5, 2 one end of high energy ignition cable is connected with high energy point firearm 6, high energy point firearm 6 connects high energy ignition controller 8 through ignition control cable 7, the 2 other ends of high energy ignition cable and 3 other ends of air supply pipeline all are connected with pilot burner 9, be provided with multiunit pipeline support card 10 on protective tube 4, protective tube 4 supports card 10 through multiunit pipeline and connects blowout pipeline 11, blowout pipeline one end fixedly connected with blowout combustion section of thick bamboo 12.

In the utility model, the conduit 1 is a gas hose, the interval between the high-energy ignition controller 8 and the ignition burner 9 is 2m-4m, and the protective pipe 4 is made of high-temperature resistant material;

the high-energy ignition cable 2 in the protective tube 4 is connected with an ignition rod 13 through a bolt, and the ignition rod 13 is connected with the ignition burner 9;

the protective pipe 4 is provided with a reducing transition joint 14, the protective pipe 4 close to the ignition burner 9 is provided with a fire wall 15, the fire wall 15 is rectangular, and the other end of the blowout combustion cylinder 12 penetrates through the fire wall 15;

a plurality of groups of mounting rings 16 matched with the pipeline supporting clamps 10 are arranged on the blowout pipeline 11, and the pipeline supporting clamps 10 are respectively connected with the mounting rings 16;

the pipeline supporting card is of a detachable structure, and the pipeline supporting card 10 is made of high-temperature-resistant materials.

The utility model discloses the installation principle does: when in use, an operator pours a concrete foundation for placing the blowout combustion cylinder 12 in a construction site and pre-embeds a foot bolt, then installs the blowout combustion cylinder 12 and installs the pilot burner 9 at the upper end of the blowout combustion cylinder 12, then installs the fire wall 15 to prevent the flame from being blown back to the burning damage device by reverse wind, after the installation, the operator installs the high-energy igniter 6 beside the blowout prevention pipeline at a distance of more than 122m away from the blowout combustion cylinder, then installs the ignition rod 13 on the pilot burner 9 and connects the high-energy ignition cable 2 with the ignition rod 13, simultaneously connects the gas source pipeline 3 with the pilot burner 9 and sets the protective pipe 4 at the periphery thereof for fixing by the pipeline supporting clamp 10, finally connects the conduit 1 with the liquefied gas storage tank 5 respectively, connects the high-energy ignition cable 2 with the high-energy igniter 6, the high-energy ignition controller 8 is connected with the high-energy igniter 6, and the high-energy ignition controller 8 is used for carrying out relevant operations.

The above description is only exemplary of the present invention and should not be construed as limiting the present invention, and any modifications, equivalents and improvements made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (6)

1. A novel ignition device is characterized in that: the high-energy ignition device comprises a guide pipe, a high-energy ignition cable, an ignition burner, a blowout combustion cylinder and a high-energy igniter, wherein one end of the guide pipe is fixedly connected with an air source pipeline, the air source pipeline and the high-energy ignition cable are arranged in a protective pipe, the other end of the guide pipe is connected with a liquefied gas storage tank, one end of the high-energy ignition cable is connected with the high-energy igniter, the high-energy igniter is connected with the high-energy ignition controller through an ignition control cable, the other end of the high-energy ignition cable and the other end of the air source pipeline are connected with the ignition burner, a plurality of groups of pipeline supporting cards are arranged on the protective pipe, the protective pipe is connected with the blowout combustion cylinder through the.

2. A novel ignition device as claimed in claim 1, wherein: the guide pipe is a gas hose, the interval between the high-energy ignition controller and the pilot burner is 2m-4m, and the protective pipe is made of high-temperature-resistant materials.

3. A novel ignition device as claimed in claim 1, wherein: the high-energy ignition cable in the protective tube is connected with an ignition rod through a bolt, and the ignition rod is connected with the ignition burner.

4. A novel ignition device as claimed in claim 1, wherein: the protection pipe is provided with a reducing transition joint, a fire blocking wall is arranged on the protection pipe close to the ignition burner, the fire blocking wall is rectangular, and the other end of the open-flow combustion cylinder penetrates through the fire blocking wall.

5. A novel ignition device as claimed in claim 1, wherein: the blowout pipeline is provided with a plurality of groups of mounting rings matched with the pipeline supporting clamps, and the pipeline supporting clamps are respectively connected with the mounting rings.

6. A novel ignition device as claimed in claim 1, wherein: the pipeline support card is of a detachable structure and is made of high-temperature-resistant materials.

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