CN117419348B - Gas diffusion ignition torch - Google Patents

Abstract

The application relates to the technical field of torches, in particular to a gas diffusing ignition torch which comprises a tower, wherein the top surface of the tower is arranged in a penetrating way; the first sleeve is sleeved at the top of the tower barrel, and the side wall of the first sleeve and the side wall of the tower barrel are arranged at intervals; the second sleeve is connected to the side wall of the tower barrel, the second sleeve is sleeved on the first sleeve, and the side wall of the second sleeve and the side wall of the first sleeve are arranged at intervals; a fluid sealer provided between the first sleeve and the second sleeve; the tempering prevention assembly is arranged between the first sleeve and the tower barrel; and the igniter is connected to the side wall of the second sleeve. This application has the effect of hoisting device stability, security.

Description

Gas diffusion ignition torch

Technical Field

The application relates to the technical field of torches, in particular to a gas diffusing ignition torch.

Background

The types of the conventional domestic torches are mainly divided into two main types according to the installation positions of the burners, namely an overhead torch and a ground torch. The overhead flare can provide a high enough height, has a large treatment gas amount, can treat extremely or highly dangerous toxic gases, and is beneficial to the diffusion of combustible gases and combustion products.

Chinese patent publication No. CN218064909U discloses a wind-proof overhead torch, which comprises a tower and a maintenance plate arranged on the tower, wherein a protection mechanism is arranged on the maintenance plate; the wind-proof mechanism is arranged on the maintenance plate and is positioned right above the tower drum; the windproof mechanism comprises a fixed sleeve, a protective cylinder, a wind guiding sleeve and a threaded rod, wherein the fixed sleeve is arranged on the top surface of the maintenance plate; the protective cylinder is arranged on the top surface of the fixed sleeve; the outer side wall of the protective cylinder is provided with a plurality of air flow grooves, the air flow grooves are the same in size, the air guide sleeve is arranged on the inner wall of the protective cylinder, and the air guide sleeve is positioned at the top of the protective cylinder; the top surface of the fixed sleeve is provided with a plurality of clamping grooves which are distributed annularly around the protective cylinder; threaded rods are arranged in the clamping grooves, and penetrate through the fixing sleeve and are connected with the top surface of the maintenance plate.

In view of the above-mentioned related art, the applicant believes that when an overhead torch processes gas carrying liquid droplets, a situation of lowering fire and rain occurs, and the space between the overhead torches needs to be increased, so that the influence of fire and rain on other devices is reduced; the high-altitude air flow not only can influence the combustion of the gas in the tower barrel, but also can influence the stability of the device and the landing place of fire and rain, and the safety of the device is influenced.

Disclosure of Invention

In order to improve device stability, security, this application provides a coal gas diffuses ignition torch.

The application provides a coal gas diffuses ignition torch adopts following technical scheme: the gas diffusing ignition torch comprises a tower, wherein the top surface of the tower is arranged in a penetrating way; the first sleeve is sleeved at the top of the tower barrel, and the side wall of the first sleeve and the side wall of the tower barrel are arranged at intervals; the second sleeve is connected to the side wall of the tower barrel, the second sleeve is sleeved on the first sleeve, and the side wall of the second sleeve and the side wall of the first sleeve are arranged at intervals; a fluid sealer provided between the first sleeve and the second sleeve; the tempering prevention assembly is arranged between the first sleeve and the tower barrel; and the igniter is connected to the side wall of the second sleeve.

Through adopting above-mentioned technical scheme, set up first sleeve and second sleeve, the gas in the tower section of thick bamboo upwards flows and along the passageway that comprises first sleeve inner wall and tower section of thick bamboo outer wall, and the flow direction is by the passageway that first sleeve outer wall and second sleeve inner wall constitute, and the rethread igniter ignites, reduces the outside air inflow of tower section of thick bamboo to inside the tower section of thick bamboo of taking place, thereby leads to the inside air of tower section of thick bamboo too much to influence the condition of gas combustion in the tower section of thick bamboo, hoisting device stability.

The liquid drops carried by the gas in the tower tube flow between the first sleeve and the outer wall of the tower tube and then drop down to the bottom wall of the second sleeve, so that the situation that the liquid drops move out of the device is reduced, the situation that fire and rain fall to the ground during gas combustion is reduced, and the safety of the device is improved.

The igniter ignites the gas, so that the gas is conveniently treated, the stability of the device can be improved by the fluid sealer and the backfire preventing assembly, backfire of the device is reduced, and the gas is conveniently combusted.

Optionally, the first sleeve includes spherical connecting pipe, first connecting pipe and first connecting plate, the spherical connecting pipe is located inside the tower section of thick bamboo, the spherical connecting pipe is whole to be hemispherical, the spherical outer wall of spherical connecting pipe is towards the tower section of thick bamboo inner wall, the first connecting pipe is whole to be the ring form, the first connecting plate is whole to be the ring form, the first connecting pipe with the first connecting plate all is coaxial setting with the tower section of thick bamboo, first connecting pipe bottom is the run through setting, first connecting pipe one side connect in spherical connecting pipe top surface, first connecting pipe opposite side connect in vertical setting first connecting plate, first connecting plate is located tower section of thick bamboo lateral wall is kept away from one side of spherical connecting pipe; the second sleeve comprises a second connecting pipe and a second connecting plate, the second connecting pipe is in a circular ring shape integrally, the second connecting plate is in a circular ring shape integrally, the second connecting pipe and the second connecting plate are all coaxially arranged with the tower, the top of the second connecting pipe is in a penetrating arrangement, one side of the second connecting pipe is connected with the outer wall of the tower, the other side of the second connecting pipe is connected with the second connecting plate which is vertically arranged, the second connecting plate is arranged on one side, far away from the tower, of the first connecting plate, the bottom surface of the second connecting plate and the bottom surface of the first connecting plate are located on the same horizontal plane in the axial direction of the tower, the top surface of the first connecting plate and the top surface of the tower are located on the same horizontal plane in the axial direction of the tower, and the igniter faces between the first connecting plate and the second connecting plate.

Through adopting above-mentioned technical scheme, set up spherical connecting pipe, upward exhaust gas flows to tower section of thick bamboo lateral wall direction along spherical connecting pipe's bottom surface in the tower section of thick bamboo, reduces the piling up of gas at tower section of thick bamboo top, sets up first connecting pipe and second connecting pipe, and the passageway that the gas of being convenient for constitutes by first connecting pipe inner wall and second connecting pipe inner wall flows, reduces the piling up of gas in device turn department, and the gas at the top between first connecting plate and the second connecting plate is lighted to the some firearm, is convenient for handle gas.

Optionally, a plurality of fluid sealers are provided, the plurality of fluid sealers are all arranged between the first connecting plate and the second connecting plate, and the plurality of fluid sealers are arranged at intervals in the axial direction of the tower; the fluid sealer comprises a first connecting ring and a second connecting ring, the first connecting ring and the second connecting ring are integrally annular and coaxially arranged with the tower, one end of the first connecting ring is connected with one side, close to the first connecting plate, of the second connecting plate, the first connecting ring is obliquely arranged, one end, far away from the second connecting plate, of the first connecting ring is higher than one end, close to the second connecting plate, of the first connecting plate in the axial direction of the tower, one end of the second connecting ring is connected with one side, close to the second connecting plate, of the first connecting plate, the second connecting ring is obliquely arranged, one end, far away from the first connecting plate, of the second connecting ring is higher than one end, close to the first connecting plate, of the second connecting ring in the axial direction of the tower.

Through adopting above-mentioned technical scheme, set up first go-between and second go-between, the gas is when passing through the interval between first go-between and the second go-between, the velocity of flow increases, the device outside air flow direction of being convenient for between first connecting plate and the second connecting plate, the device outside air of being convenient for mixes with gas and makes gas combustion, convenient to use, and set up fluid seal ware, reduce the condition that outside air flowed into between first connecting plate and the tower section of thick bamboo outer wall, reduce the influence of outside air to the unburned gas in the tower section of thick bamboo, reduce the condition that the device takes place the tempering.

Optionally, the tempering prevention component includes first flame retardant coating and second flame retardant coating, first flame retardant coating with the second flame retardant coating is all located the tower section of thick bamboo outer wall with between the first connecting plate, first flame retardant coating with the second flame retardant coating is all wholly in the form of ring and all with the tower section of thick bamboo is coaxial setting, first flame retardant coating fixed connection in the tower section of thick bamboo outer wall, second flame retardant coating sliding connection in the tower section of thick bamboo outer wall, the second flame retardant coating is in the axial of tower section of thick bamboo be located first flame retardant coating below, first flame retardant coating with all offer on the second flame retardant coating along the first through-hole of the axial extension of tower section of thick bamboo, the second flame retardant coating seals first through-hole on the first flame retardant coating.

Through adopting above-mentioned technical scheme, set up first flame retardant coating and second flame retardant coating, when taking place the tempering, the gas of second flame retardant coating bottom promotes the second flame retardant coating, makes the second flame retardant coating remove towards the direction that is close to first flame retardant coating, removes to second flame retardant coating and first flame retardant coating butt, and the second flame retardant coating seals first through-hole on the first flame retardant coating, reduces the probability that flame got into inside the tower section of thick bamboo, reduces the influence to the gas in the tower section of thick bamboo, hoisting device's stability and security.

Optionally, the tempering prevention component further comprises a third fire baffle and a fourth fire baffle, the third fire baffle and the fourth fire baffle are all integrally cylindrical and are all horizontally arranged inside the tower, the third fire baffle is slidably connected to the inner wall of the tower, the fourth fire baffle is fixedly connected to the inner wall of the tower, the third fire baffle is located above the fourth fire baffle in the axial direction of the tower, second through holes extending in the axial direction of the tower are formed in the third fire baffle and the fourth fire baffle, the third fire baffle is sealed in the second through holes in the fourth fire baffle, a connecting piece is arranged between the second fire baffle and the third fire baffle, the connecting piece is used for controlling the position of the third fire baffle relative to the tower when the second fire baffle moves, and the third fire baffle is abutted to the fourth fire baffle when the second fire baffle moves.

Through adopting above-mentioned technical scheme, set up third flame retardant coating and fourth flame retardant coating, when the second flame retardant coating moves towards the direction that is close to first flame retardant coating, make the third flame retardant coating move towards the direction that is close to fourth flame retardant coating, the second through-hole on the third flame retardant coating is sealed to the third flame retardant coating, multiple protection reduces the influence of tempering to the interior coal gas of tower section of thick bamboo, hoisting device's stability and security.

Optionally, the connecting piece includes connecting rope and stopper, the stopper connect in tower section of thick bamboo top surface, offered on the stopper along tower section of thick bamboo radial run through the perforation of stopper, connecting rope one end connect in second flame retardant plate top surface, the connecting rope other end pass on the first flame retardant plate first through-hole with perforated after connect in third flame retardant plate top surface.

Through adopting above-mentioned technical scheme, the connecting piece is including connecting the rope, and simple structure is nimble, convenient to use, when second flame retardant coating upward movement, third flame retardant coating downwardly moving to the butt in fourth flame retardant coating, when second flame retardant coating downwardly moving, the pulling third flame retardant coating makes third flame retardant coating move towards the direction of keeping away from fourth flame retardant coating, is convenient for control third flame retardant coating moving's opportunity, need not to additionally set up the power supply that is used for controlling third flame retardant coating at tower circumference upward reciprocating motion, practices thrift the cost.

Optionally, the connecting piece is equipped with the multiunit, multiunit the connecting piece is followed tower section of thick bamboo circumference interval sets up.

By adopting the technical scheme, the stability of the device is improved, and the inclination of the second fire baffle and the third fire baffle is reduced.

In summary, the present application includes the following beneficial technical effects:

1. the gas in the tower cylinder flows upwards along a channel formed by the inner wall of the first sleeve and the outer wall of the tower cylinder, flows to the channel formed by the outer wall of the first sleeve and the inner wall of the second sleeve, is ignited by the igniter, so that the condition that the gas in the tower cylinder is influenced by the air outside the tower cylinder flowing into the tower cylinder is reduced, and the stability of the device is improved;

2. the liquid drops carried by the gas in the tower tube flow between the first sleeve and the outer wall of the tower tube and then drop downwards to the bottom wall of the second sleeve, so that the situation that the liquid drops move out of the device is reduced, the situation that fire and rain fall to the ground during gas combustion is reduced, and the safety of the device is improved;

3. the first connecting ring and the second connecting ring are arranged, so that the flow speed of the gas is increased when the gas passes through the interval between the first connecting ring and the second connecting ring, the air outside the device conveniently flows between the first connecting plate and the second connecting plate, the air outside the device and the gas are conveniently mixed to enable the gas to burn, and the gas burner is convenient to use;

4. the tempering prevention component is arranged for multiple protection, so that the influence of tempering on gas in the tower barrel is reduced, and the stability and safety of the device are improved.

Drawings

FIG. 1 is a schematic overall structure of an embodiment of the present application;

FIG. 2 is a schematic structural view of a first sleeve and a second sleeve according to an embodiment of the present application;

FIG. 3 is a schematic view of a fluid seal and anti-flashback assembly in an embodiment of the application.

Reference numerals illustrate: 1. a tower; 2. a first sleeve; 21. a spherical connecting pipe; 22. a first connection pipe; 23. a first connection plate; 24. a support rod; 3. a second sleeve; 31. a second connection pipe; 32. a second connecting plate; 4. a fluid sealer; 41. a first connection ring; 42. a second connecting ring; 5. an anti-flashback assembly; 51. a first flame stop plate; 52. a second flame stop plate; 53. a first through hole; 54. a third flame stop plate; 55. a fourth flame plate; 56. a second through hole; 57. a connecting piece; 58. a connecting rope; 59. a limiting block; 510. perforating; 6. an igniter.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present application more clear, the technical solutions of the embodiments of the present application will be clearly and completely described below with reference to the accompanying drawings of the embodiments of the present application. It will be apparent that the described embodiments are some, but not all, of the embodiments of the present application. All other embodiments obtained by a person of ordinary skill in the art based on the described embodiments of the present application are within the scope of the protection of the present application.

The present application is described in further detail below in conjunction with figures 1-3.

The embodiment of the application discloses a gas diffusion ignition torch. Referring to fig. 1 to 3, a gas diffusion ignition torch includes a tower 1, a first sleeve 2, a second sleeve 3, a fluid sealer 4, an anti-backfire assembly 5, and an igniter 6.

Referring to fig. 1 and 2, the tower 1 is cylindrical in shape, the tower 1 is disposed to penetrate in the axial direction, the tower 1 is disposed vertically, and gas flows upward along the inside of the tower 1.

Referring to fig. 1 and 2, the first sleeve 2 includes a spherical connection pipe 21, a first connection pipe 22 and a first connection plate 23, the spherical connection pipe 21 is disposed inside the tower 1, the spherical connection pipe 21 is integrally hemispherical, the spherical outer wall of the spherical connection pipe 21 faces the inner wall of the tower 1, and after gas flows to the top inside the tower 1, the gas flows along the spherical outer wall of the spherical connection pipe 21 toward the side wall of the tower 1. The whole ring shape that is of first connecting pipe 22, the whole ring shape that is of first connecting plate 23, first connecting pipe 22 and first connecting plate 23 are coaxial setting with tower 1, first connecting pipe 22 bottom is running through the setting, first connecting pipe 22 one side is connected in spherical connecting pipe 21 top surface, first connecting pipe 22 opposite side is connected in the first connecting plate 23 of vertical setting, first connecting plate 23 locates the one side that spherical connecting pipe 21 was kept away from to tower 1 lateral wall, the coal gas that flows to tower 1 lateral wall department flows along first connecting pipe 22 inner wall, and flow downwards along the passageway that first connecting plate 23 lateral wall and tower 1 outer wall constitute. A plurality of horizontally placed support rods 24 are arranged between the first connecting plate 23 and the outer wall of the tower 1, so that the position of the first sleeve 2 is conveniently fixed, and the first sleeve 2 is supported.

Referring to fig. 1 and 2, the second sleeve 3 includes a second connection pipe 31 and a second connection plate 32, the second connection pipe 31 is in a circular ring shape, the second connection plate 32 is in a circular ring shape, the second connection pipe 31 and the second connection plate 32 are both coaxially arranged with the tower 1, the top of the second connection pipe 31 is in a penetrating arrangement, one side of the second connection pipe 31 is connected to the outer wall of the tower 1, the other side of the second connection pipe 31 is connected to the second connection plate 32 in a vertical arrangement, and the second connection plate 32 is arranged on one side of the first connection plate 23 far away from the tower 1. The bottom surface of the second connecting plate 32 and the bottom surface of the first connecting plate 23 are positioned on the same horizontal plane in the axial direction of the tower 1, and the top surface of the first connecting plate 23 and the top surface of the tower 1 are positioned on the same horizontal plane in the axial direction of the tower 1. The gas flows downwards along the channel formed by the side wall of the first connecting plate 23 and the outer wall of the tower 1, the liquid drops contained in the gas fall down to the inner wall of the second connecting pipe 31, and the gas flows upwards along the channel formed by the inner wall of the second connecting pipe 31 and the side wall of the second connecting plate 32 and is mixed with air.

Referring to fig. 1, three igniters 6 are provided, the three igniters 6 are uniformly spaced along the circumferential direction of the tower 1, the igniters 6 are connected to the side wall of the second connecting plate 32, the igniters 6 face between the first connecting plate 23 and the second connecting plate 32, and the igniters 6 are used for igniting and burning the gas mixed with air.

Referring to fig. 3, three fluid sealers 4 are provided, the three fluid sealers 4 are all arranged between the first connecting plate 23 and the second connecting plate 32, the three fluid sealers 4 are arranged at intervals in the axial direction of the tower 1, and the fluid sealers 4 are provided, so that air and gas between the second connecting plate 31 and the second connecting plate 32 are convenient to mix, and incomplete gas combustion is reduced.

Referring to fig. 3, the fluid sealer 4 includes a first connecting ring 41 and a second connecting ring 42, the first connecting ring 41 and the second connecting ring 42 are each integrally formed in a circular ring shape and are each disposed coaxially with the tower 1, one end of the first connecting ring 41 is connected to one side of the second connecting plate 32 near the first connecting plate 23, the first connecting ring 41 is disposed obliquely, one end of the first connecting ring 41 away from the second connecting plate 32 is higher than one end of the first connecting ring 41 near the second connecting plate 32 in the axial direction of the tower 1, one end of the second connecting ring 42 is connected to one side of the first connecting plate 23 near the second connecting plate 32, the second connecting ring 42 is disposed obliquely, one end of the second connecting ring 42 away from the first connecting plate 23 is higher than one end of the second connecting ring 42 near the first connecting plate 23 in the axial direction of the tower 1. The gas flows upwards along the interval of the first connecting ring 41 and the second connecting ring 42, and as the first connecting ring 41 and the second connecting ring 42 are obliquely arranged and the tops of the first connecting ring 41 and the second connecting ring 42 are close to each other, the flow speed of the gas is increased in the upward flowing process, so that the air close to the side wall of the second connecting pipe 31 and the air close to the second connecting plate 32 flow in the direction close to the interval between the second connecting pipe 31 and the second connecting plate 32 and are mixed with the gas, the gas can be fully combusted conveniently, and incomplete combustion of the gas caused by uneven mixing of the gas and the air is reduced.

Referring to fig. 3, the tempering preventing assembly 5 includes a first fire baffle 51 and a second fire baffle 52, the first fire baffle 51 and the second fire baffle 52 are both disposed between the outer wall of the tower 1 and the first connecting plate 23, the first fire baffle 51 and the second fire baffle 52 are both integrally in a ring shape and are both coaxially disposed with the tower 1, the first fire baffle 51 is fixedly connected with the outer wall Yu Datong, the second fire baffle 52 is slidably connected with the outer wall of the tower 1, the second fire baffle 52 is disposed below the first fire baffle 51 in the axial direction of the tower 1, the first fire baffle 51 and the second fire baffle 52 are both provided with first through holes 53 extending along the axial direction of the tower 1, and the second fire baffle 52 seals the first through holes 53 on the first fire baffle 51. When the second fire baffle plate 52 is connected with the first fire baffle plate 51, the second fire baffle plate 52 seals the first through hole 53 on the first fire baffle plate 51, seals the channel between the first connecting plate 23 and the tower 1, and reduces the condition that tempering further spreads.

Referring to fig. 3, the tempering preventing assembly 5 further includes a third fire baffle 54 and a fourth fire baffle 55, the third fire baffle 54 and the fourth fire baffle 55 are all cylindrical and all horizontally disposed inside the tower 1, the third fire baffle 54 is slidably connected to the inner wall of the tower 1, the fourth fire baffle 55 is fixedly connected to the inner wall of the Yu Datong, the third fire baffle 54 is located above the fourth fire baffle 55 in the axial direction of the tower 1, second through holes 56 extending along the axial direction of the tower 1 are formed in the third fire baffle 54 and the fourth fire baffle 55, the third fire baffle 54 seals the second through holes 56 on the fourth fire baffle 55, and a connecting piece 57 is disposed between the second fire baffle 52 and the third fire baffle 54. When the third fire baffle plate 54 is connected with the fourth fire baffle plate 55, the third fire baffle plate 54 seals the second through holes 56 on the fourth fire baffle plate 55, seals the channel inside the tower 1, reduces the condition that tempering further spreads, and improves the stability of the device.

Referring to fig. 3, the connecting members 57 are provided with four groups, the four groups of connecting members 57 are uniformly arranged at intervals along the circumferential direction of the tower 1, the connecting members 57 comprise connecting ropes 58 and limiting blocks 59, the limiting blocks 59 are connected to the top surface of the tower 1, through holes 510 penetrating the limiting blocks 59 along the radial direction of the tower 1 are formed in the limiting blocks 59, one ends of the connecting ropes 58 are connected to the top surface of the second fire baffle 52, and the other ends of the connecting ropes 58 penetrate through the first through holes 53 and the through holes 510 in the first fire baffle 51 and then are connected to the top surface of the third fire baffle 54. When the second flame-retardant plate 52 moves upward, the third flame-retardant plate 54 is moved downward by the connecting rope 58 until the third flame-retardant plate 54 abuts against the fourth flame-retardant plate 55, and the third flame-retardant plate 54 closes the second through hole 56 on the fourth flame-retardant plate 55. When the second flame plate 52 moves downward and is separated from the first flame plate 51, the third flame plate 54 is pulled to move upward and is separated from the fourth flame plate 55.

The implementation principle of the gas diffusing ignition torch is as follows: the gas flows upwards along the inside of the tower 1, flows along the spherical outer wall of the spherical connecting pipe 21 towards the side wall of the tower 1 after flowing to the top of the inside of the tower 1, flows along a channel formed by the side wall of the first connecting plate 23 and the outer wall of the tower 1, drops carried in the gas flow to the bottom of the inner wall of the second connecting pipe 31, the gas flows upwards along the channel between the first connecting plate 23 and the second connecting plate 32 and is mixed with air, and the igniter 6 ignites.

When the device is tempered, the gas at the bottom of the second fire baffle plate 52 pushes the second fire baffle plate 52 to enable the second fire baffle plate 52 to move towards the direction close to the first fire baffle plate 51, the second fire baffle plate 52 is in butt joint with the first fire baffle plate 51, the second fire baffle plate 52 seals the first through holes 53 on the first fire baffle plate 51, when the second fire baffle plate 52 moves upwards, the third fire baffle plate 54 moves downwards until the third fire baffle plate 54 is in butt joint with the fourth fire baffle plate 55, and the third fire baffle plate 54 seals the second through holes 56 on the fourth fire baffle plate 55; when tempering is stopped, the second flame-retardant plate 52 moves downward and separates from the first flame-retardant plate 51 under the pushing of the gas and the gravity action of the second flame-retardant plate 52 itself, and pulls the third flame-retardant plate 54 to move upward and separate from the fourth flame-retardant plate 55.

Furthermore, it should be noted that, in the description of the present application, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the terms in this application will be understood by those skilled in the art as the case may be.

While the foregoing is directed to the preferred embodiments of the present application, it should be noted that modifications and adaptations to those embodiments may occur to one skilled in the art and that such modifications and adaptations are intended to be comprehended within the scope of the present application without departing from the principles set forth herein.

Claims (3)

1. A gas diffusion ignition torch, comprising:

the top surface of the tower barrel (1) is arranged in a penetrating way;

the first sleeve (2) is sleeved at the top of the tower cylinder (1), and the side wall of the first sleeve (2) and the side wall of the tower cylinder (1) are arranged at intervals;

the second sleeve (3) is connected to the side wall of the tower cylinder (1), the second sleeve (3) is sleeved on the first sleeve (2), and the side wall of the second sleeve (3) and the side wall of the first sleeve (2) are arranged at intervals;

a fluid sealer (4) provided between the first sleeve (2) and the second sleeve (3);

the tempering prevention assembly (5) is arranged between the first sleeve (2) and the tower (1);

an igniter (6) connected to the side wall of the second sleeve (3);

the first sleeve (2) comprises a spherical connecting pipe (21), a first connecting pipe (22) and a first connecting plate (23), wherein the spherical connecting pipe (21) is arranged inside the tower (1), the spherical connecting pipe (21) is integrally hemispherical, the spherical outer wall of the spherical connecting pipe (21) faces the inner wall of the tower (1), the first connecting pipe (22) is integrally annular, the first connecting plate (23) is integrally annular, the first connecting pipe (22) and the first connecting plate (23) are coaxially arranged with the tower (1), the bottom of the first connecting pipe (22) is in penetrating arrangement, one side of the first connecting pipe (22) is connected to the top surface of the spherical connecting pipe (21), the other side of the first connecting pipe (22) is connected to the first connecting plate (23) which is vertically arranged, and the first connecting plate (23) is arranged on one side, far away from the spherical connecting pipe (21), of the side wall of the tower (1);

the second sleeve (3) comprises a second connecting pipe (31) and a second connecting plate (32), the second connecting pipe (31) is in a circular ring shape as a whole, the second connecting plate (32) is in a circular ring shape as a whole, the second connecting pipe (31) and the second connecting plate (32) are both coaxially arranged with the tower (1), the top of the second connecting pipe (31) is in a penetrating arrangement, one side of the second connecting pipe (31) is connected to the outer wall of the tower (1), the other side of the second connecting pipe (31) is connected to the second connecting plate (32) which is vertically arranged, the second connecting plate (32) is arranged on one side, far away from the tower (1), of the first connecting plate (23), the bottom surface of the second connecting plate (32) and the bottom surface of the first connecting plate (23) are positioned on the same horizontal plane in the axial direction of the tower (1), the top surface of the first connecting plate (23) and the tower (1) are positioned on the same horizontal plane in the axial direction of the top surface of the tower (1), and the second connecting plate (32) is arranged between the first connecting plate (23) and the second connecting plate (32).

The plurality of fluid sealers (4) are arranged, the plurality of fluid sealers (4) are arranged between the first connecting plate (23) and the second connecting plate (32), and the plurality of fluid sealers (4) are arranged at intervals in the axial direction of the tower (1);

the fluid sealer (4) comprises a first connecting ring (41) and a second connecting ring (42), wherein the first connecting ring (41) and the second connecting ring (42) are integrally annular and coaxially arranged with the tower (1), one end of the first connecting ring (41) is connected with one side, close to the first connecting plate (23), of the second connecting plate (32), the first connecting ring (41) is obliquely arranged, one end, far from the second connecting plate (32), of the first connecting ring (41) is higher than one end, close to the second connecting plate (32), of the first connecting ring (41) in the axial direction of the tower (1), one end of the second connecting ring (42) is connected with one side, close to the second connecting plate (32), of the first connecting plate (23), one end, far from the first connecting plate (23), of the second connecting ring (42) is higher than one end, close to the first connecting ring (42), close to the first connecting plate (23), of the second connecting ring (42) in the axial direction of the tower (1);

the tempering prevention component (5) comprises a first fire baffle plate (51) and a second fire baffle plate (52), the first fire baffle plate (51) and the second fire baffle plate (52) are arranged between the outer wall of the tower cylinder (1) and the first connecting plate (23), the first fire baffle plate (51) and the second fire baffle plate (52) are integrally annular and coaxially arranged with the tower cylinder (1), the first fire baffle plate (51) is fixedly connected to the outer wall of the tower cylinder (1), the second fire baffle plate (52) is slidably connected to the outer wall of the tower cylinder (1), the second fire baffle plate (52) is arranged below the first fire baffle plate (51) in the axial direction of the tower cylinder (1), first through holes (53) extending along the axial direction of the tower cylinder (1) are formed in the first fire baffle plate (51) and the second fire baffle plate (52), and the first through holes (53) are sealed;

the tempering prevention component (5) further comprises a third fire baffle plate (54) and a fourth fire baffle plate (55), the third fire baffle plate (54) and the fourth fire baffle plate (55) are integrally cylindrical and horizontally arranged inside the tower cylinder (1), the third fire baffle plate (54) is in sliding connection with the inner wall of the tower cylinder (1), the fourth fire baffle plate (55) is fixedly connected with the inner wall of the tower cylinder (1), the third fire baffle plate (54) is located above the fourth fire baffle plate (55) in the axial direction of the tower cylinder (1), second through holes (56) extending in the axial direction of the tower cylinder (1) are formed in the third fire baffle plate (54) and the fourth fire baffle plate (55), the third fire baffle plate (54) is sealed in the second through holes (56) in the fourth fire baffle plate (55), and the second fire baffle plate (52) is fixedly connected with the third fire baffle plate (54) in the position when the third fire baffle plate (54) is in contact with the third fire baffle plate (57).

2. The gas diffusion ignition torch of claim 1, wherein: the connecting piece (57) comprises a connecting rope (58) and a limiting block (59), the limiting block (59) is connected to the top surface of the tower barrel (1), a through hole (510) penetrating through the limiting block (59) in the radial direction of the tower barrel (1) is formed in the limiting block (59), one end of the connecting rope (58) is connected to the top surface of the second fire baffle (52), and the other end of the connecting rope (58) penetrates through the first through hole (53) in the first fire baffle (51) and the through hole (510) and then is connected to the top surface of the third fire baffle (54).

3. A gas diffusion ignition torch according to claim 2, wherein: the connecting pieces (57) are provided with a plurality of groups, and the plurality of groups of connecting pieces (57) are arranged at intervals along the circumferential direction of the tower drum (1).