CN212316155U - Structure for preventing gas leakage of tuyere and tuyere sleeve structure - Google Patents

Abstract

The utility model relates to a structure for preventing tuyere gas leakage and a tuyere sleeve structure, the structure for preventing tuyere gas leakage comprises a plurality of pressing plates, the pressing plates comprise bent plate parts which are arranged between a tuyere large sleeve and a flange in a spanning way, one end of each bent plate part is provided with a first top plate part which can be propped against the end surface of the flange, and the other end of each bent plate part is provided with a second top plate part which can be propped against the end surface of the tuyere large sleeve in an axial direction; the structure for preventing the gas leakage of the tuyere further comprises an outer conical surface arranged on the outer wall of the tuyere large sleeve and an inner conical surface arranged on the inner wall of the flange, the outer conical surface can be tightly abutted against the inner conical surface, and a sealing ring is arranged between the outer conical surface and the inner conical surface. The utility model overcomes the manufacturing and installation that exist among the prior art are complicated, yielding and take place wind gap coal gas leakage scheduling problem easily, adopt the clamp plate to connect big cover in wind gap and flange, and adopt conical surface and sealing washer sealed, can effectively prevent the coal gas leakage in wind gap region, guarantee the security in wind gap region, are the effective means that realizes blast furnace low-loss, safety in production.

Description

Structure for preventing gas leakage of tuyere and tuyere sleeve structure

Technical Field

The utility model relates to a ferrous metallurgy technical field especially relates to a prevent structure and wind gap cover structure of wind gap gas leakage.

Background

In the smelting process of the blast furnace, hot air enters the furnace through the air supply device and is combusted at the front end of the tuyere, a large amount of high-temperature coal gas is generated during combustion, a convolution area is formed, and the high-temperature coal gas easily penetrates through a refractory material gap to reach the tuyere equipment. The traditional tuyere large sleeve is connected with the flange through bolts, the large sleeve and the flange need to be matched with bolt holes, more bolts need to be arranged in order to ensure the connection reliability of the tuyere large sleeve and the flange, the manufacturing and installation are complex, the rigidity of the large sleeve flange is high, and the tuyere large sleeve and the flange are easy to deform during the manufacturing and installation. In addition, the two are sealed by the metal gasket, and gas leakage is easy to occur once the gasket has the problems of aging and the like. During actual production, a plurality of blast furnaces are subjected to the condition, leaked gas is generally ignited on site for safety, but long-term high temperature can affect the strength of a furnace shell and tuyere equipment, so that the key point is how to manage from the source and avoid the leakage of the gas from a tuyere large sleeve and a flange joint surface, and the safety production of the blast furnaces is ensured.

Therefore, the inventor provides a structure for preventing the gas leakage of the tuyere and a tuyere sleeve structure by virtue of experience and practice of related industries for many years so as to overcome the defects of the prior art.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a prevent structure and wind gap cover structure of wind gap gas leakage, overcome the manufacturing that exists among the prior art and install complicacy, yielding and take place wind gap gas leakage scheduling problem easily, adopt the clamp plate to connect the big cover in wind gap and flange, and adopt conical surface and sealing washer sealed, can effectively prevent the gas leakage in wind gap region, guarantee the security in wind gap region, be the effective means that realizes blast furnace low-loss, safety in production.

The utility model aims at realizing the structure for preventing the gas leakage of the tuyere, which is used between the tuyere large sleeve and the flange of the inner and outer overlapping sleeve, and comprises a plurality of pressing plates which can axially abut against the fixed tuyere large sleeve and the flange, wherein the pressing plates comprise bent plate parts which are arranged between the tuyere large sleeve and the flange in a spanning way, one end of each bent plate part is provided with a first top plate part which can abut against the end surface of the flange, and the other end of each bent plate part is provided with a second top plate part which can axially abut against the end surface of the tuyere large sleeve; the structure for preventing the gas leakage of the tuyere further comprises an outer conical surface arranged on the outer wall of the tuyere large sleeve and an inner conical surface arranged on the inner wall of the flange, the outer conical surface can be in sealing abutting connection with the inner conical surface, and a sealing ring is arranged between the outer conical surface and the inner conical surface.

In a preferred embodiment of the present invention, the present invention further comprises at least 3 pin wedge plates circumferentially arranged on the end surface of the flange at intervals, wherein the number of the pin wedge plates is the same as the number of the pressing plates; and each pin wedge plate is provided with a pressing wedge through groove which is radially communicated along the flange, each pressing plate respectively penetrates through each pressing wedge through groove, a bent plate part of each pressing wedge through groove is arranged in the pressing wedge through groove in a spanning mode, one end, which is located at the bent plate part and is far away from the flange, of each pressing wedge through groove is provided with a wedge plate in a wedging mode, and the wedge plates are used for fixedly pressing the pressing plates.

In a preferred embodiment of the present invention, the first top plate of the pressing plate is smaller than the second top plate of the pressing plate along the axial length of the flange.

The utility model discloses a in a preferred embodiment, each the round pin wedge plate is the rectangular plate setting, each the one end of round pin wedge plate is inwards concave to be established press the wedge to pass through the groove, press the wedge to pass through the groove and be the setting of rectangle opening.

In a preferred embodiment of the present invention, the number of the pin wedge plates, the pressing plate and the wedge plates is 4, and each of the pin wedge plates is circumferentially disposed on the end surface of the flange at regular intervals.

The utility model also can realize the aim that the tuyere sleeve structure comprises a tuyere small sleeve, a tuyere middle sleeve and a tuyere large sleeve which are internally and externally overlapped and are arranged in a taper sleeve structure, wherein the large-diameter end of the tuyere small sleeve is hermetically sleeved at the inner side of the small-diameter end of the tuyere middle sleeve; the large-diameter end of the tuyere medium sleeve is hermetically arranged at the inner side of the small-diameter end of the tuyere large sleeve; the flange is sleeved on the outer wall of the large-diameter end of the tuyere large sleeve, and a structure for preventing gas leakage of the tuyere is arranged between the tuyere large sleeve and the flange.

In a preferred embodiment of the present invention, the structure for preventing gas leakage from the tuyere comprises a plurality of pressing plates capable of axially abutting against the fixed tuyere large sleeve and the flange, wherein each pressing plate comprises a bent plate portion spanning between the tuyere large sleeve and the flange, one end of the bent plate portion is provided with a first top plate portion capable of abutting against the end surface of the flange, and the other end of the bent plate portion is provided with a second top plate portion capable of axially abutting against the end surface of the tuyere large sleeve; the structure for preventing the gas leakage of the tuyere further comprises an outer conical surface arranged on the outer wall of the large-diameter end of the tuyere large sleeve and an inner conical surface arranged on the inner wall of the flange, the outer conical surface can be in sealing abutting connection with the inner conical surface, and a sealing ring is arranged between the outer conical surface and the inner conical surface.

In a preferred embodiment of the present invention, the structure for preventing gas leakage from the tuyere further comprises at least 3 pin wedge plates circumferentially arranged on the end surface of the flange at intervals, wherein the number of the pin wedge plates is the same as the number of the pressing plates; and each pin wedge plate is provided with a pressing wedge through groove which is radially communicated along the flange, each pressing plate respectively penetrates through each pressing wedge through groove, a bent plate part of each pressing wedge through groove is arranged in the pressing wedge through groove in a spanning mode, one end, which is located at the bent plate part and is far away from the flange, of each pressing wedge through groove is provided with a wedge plate in a wedging mode, and the wedge plates are used for fixedly pressing the pressing plates.

The utility model discloses a in a preferred embodiment, each the round pin wedge plate is the rectangular plate setting, each the one end of round pin wedge plate is inwards concave to be established press the wedge to pass through the groove, press the wedge to pass through the groove and be the setting of rectangle opening.

The utility model discloses an in a preferred embodiment, the outer conical surface upper ring of wind gap big cover establishes the seal ring groove, the sealing washer card is located in the seal ring groove, the radial outside seal top of sealing washer supports on the inner conical surface of flange.

From top to bottom, the utility model provides a prevent structure and wind gap cover structure of wind gap gas leakage has following beneficial effect:

the structure for preventing the gas leakage of the tuyere of the utility model adopts the pressing plate to connect the tuyere large sleeve and the flange, replaces the bolt connection in the prior art, and the pressing plate is fixedly propped against the end surfaces of the tuyere large sleeve and the flange, thereby playing the role of fixing the tuyere large sleeve, and having simple structure and convenient installation; the side wall joint surface of the tuyere large sleeve and the flange is abutted by adopting conical surface sealing and is tightly matched, so that the function of sealing the joint surface of the tuyere large sleeve and the flange is achieved, and main sealing is formed; a sealing ring is arranged between the outer conical surface and the inner conical surface, and a main seal in hard contact is supplemented by a sealing flange of the sealing ring and a large sleeve combining surface of the tuyere, so that coal gas is sealed, and a first layer of auxiliary sealing effect is achieved; the utility model has simple structure, can effectively prevent the gas leakage in the tuyere area, ensures the safety of the tuyere area, and is an effective means for realizing the low consumption and safe production of the blast furnace;

the utility model provides an among the wind gap cover structure, adopted the structure that prevents wind gap gas leakage to combine the department welding at the wind gap overcoat and flange, in order to play the secondary seal effect, realize the triple seal between wind gap overcoat and the flange, increase the leakproofness, can effectively guarantee the security in wind gap region, be the effective means that realizes blast furnace low-loss, safety.

Drawings

The drawings are only intended to illustrate and explain the present invention and do not limit the scope of the invention. Wherein:

FIG. 1: do the utility model discloses a wind gap cover structure sketch map.

FIG. 2: is an enlarged view at I in FIG. 1.

FIG. 3: do the utility model discloses a flange structure schematic diagram of installation round pin wedge plate.

FIG. 4: is a schematic view along the direction A in FIG. 3.

FIG. 5: is the schematic diagram of the pin wedge plate of the utility model.

FIG. 6: is the schematic diagram of the pressing plate of the utility model.

In the figure:

100. structure for preventing gas leakage from tuyere;

200. tuyere sleeve structure

1. A tuyere small sleeve;

2. a tuyere medium sleeve;

3. a tuyere large sleeve; 31. sealing the ring groove;

4. a flange;

5. pressing a plate; 50. a bent plate portion; 51. a first top plate portion; 52. a second top plate portion;

6. a pin wedge plate; 61. pressing a wedge through a groove;

7. a wedge plate;

81. an outer conical surface; 82. an inner conical surface; 83. a seal ring;

9. and (5) a furnace shell.

Detailed Description

In order to clearly understand the technical features, objects, and effects of the present invention, embodiments of the present invention will be described with reference to the accompanying drawings.

The specific embodiments of the present invention described herein are for the purpose of explanation only and should not be construed as limiting the invention in any way. Given the teachings of the present invention, the skilled person can conceive of any possible variants based on the invention, which should all be considered as belonging to the scope of the invention. It will be understood that when an element is referred to as being "disposed on" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "mounted," "connected," and "connected" are to be construed broadly and may include, for example, mechanical or electrical connections, communications between two elements, direct connections, indirect connections through intermediaries, and the like. The terms "vertical," "horizontal," "upper," "lower," "left," "right," and the like as used herein are for illustrative purposes only and do not denote a unique embodiment.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs. The terminology used herein in the description of the present application is for the purpose of describing particular embodiments only and is not intended to be limiting of the application. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

As shown in fig. 1 to 6, the utility model provides a structure 100 for preventing gas leakage of tuyere, which is used between a tuyere large sleeve 3 and a flange 4 that are sleeved inside and outside, wherein the tuyere large sleeve 3 is arranged in a taper sleeve, the flange 4 is sleeved on the outer wall of the large-diameter end of the tuyere large sleeve 3, and the flange 4 is fixed with a furnace shell 9 of a blast furnace (prior art);

the structure 100 for preventing the gas leakage of the tuyere comprises a plurality of pressing plates 5 which can axially abut against and fix a tuyere large sleeve 3 and a flange 4, wherein each pressing plate 5 comprises a bent plate part 50 which is arranged between the tuyere large sleeve 3 and the flange 4 in a spanning mode, one end of each bent plate part 50 is provided with a first top plate part 51 which can abut against the end face of the flange 4, and the other end of each bent plate part 50 is provided with a second top plate part 52 which can axially abut against the end face (the end face at one end with a large diameter) of the tuyere large sleeve 3; the structure 100 for preventing the gas leakage of the tuyere further comprises an outer conical surface 81 arranged on the outer wall of the tuyere large sleeve 3 and an inner conical surface 82 arranged on the inner wall of the flange 4, the outer conical surface 81 can be in sealing abutting contact with the inner conical surface 82, and a sealing ring 83 is arranged between the outer conical surface 81 and the inner conical surface 82.

The structure for preventing the gas leakage of the tuyere of the utility model adopts the pressing plate to connect the tuyere large sleeve and the flange, replaces the bolt connection in the prior art, and the pressing plate is fixedly propped against the end surfaces of the tuyere large sleeve and the flange, thereby playing the role of fixing the tuyere large sleeve, and having simple structure and convenient installation; the side wall joint surface of the tuyere large sleeve and the flange is abutted by adopting conical surface sealing and is tightly matched, so that the function of sealing the joint surface of the tuyere large sleeve and the flange is achieved, and main sealing is formed; a sealing ring is arranged between the outer conical surface and the inner conical surface, and a main seal in hard contact is supplemented by a sealing flange of the sealing ring and a large sleeve combining surface of the tuyere, so that coal gas is sealed, and a first layer of auxiliary sealing effect is achieved; the utility model has simple structure, can effectively prevent the gas leakage in the tuyere area, ensures the safety of the tuyere area, and is an effective means for realizing the low consumption and safe production of the blast furnace.

Further, as shown in fig. 1, 2 and 3, the structure 100 for preventing the leakage of the tuyere gas further comprises at least 3 pin wedge plates 6 circumferentially arranged on the end surface of the flange 4 at intervals, wherein the number of the pin wedge plates 6 is the same as that of the pressure plates 5; each pin wedge plate 6 is provided with a press wedge through groove 61 which is through along the radial direction of the flange, each press plate 5 respectively penetrates through each press wedge through groove 61 and the bent plate part 50 thereof is arranged in the press wedge through groove 61 in a spanning mode, a wedge plate 7 is arranged at one end, far away from the flange 4, of the bent plate part 50 in each press wedge through groove 61 in a wedging mode, the wedge plate 7 is used for fixedly pressing the press plate 5, and the wedge plate 7 is arranged in a trapezoidal plate mode. The pressing plate 5 adopts a wedge plate type fixing and pressing mode, so that the fixing mode of the pressing plate 5 is more flexible, the pressing plate is suitable for pressing plates with various lengths, and the structure is simple, and the installation and the disassembly are convenient.

Further, as shown in fig. 6, since the large-diameter end of the tuyere large sleeve 3 is located in the flange, the axial lengths of the two ends of the pressure plate 5 should be different, and in the present embodiment, the length dimension of the first top plate portion 51 of the pressure plate 5 in the axial direction of the flange 4 is smaller than the length dimension of the second top plate portion 52 of the pressure plate 5 in the axial direction of the flange 4.

As shown in fig. 3, 4, and 5, in the present embodiment, each pin wedge plate 6 is provided as a rectangular plate, one end of each pin wedge plate 6 is recessed inward to form a wedge penetration groove 61, and the wedge penetration groove 61 is provided as a rectangular cutout. The utility model discloses an in a specific embodiment, the quantity of selling wedge plate 6, clamp plate 5 and wedge plate 7 is 4, and each is sold wedge plate 6 and is circumference and set up on the terminal surface of flange 4 evenly at an interval, and each is sold wedge plate 6 welded fastening on the terminal surface of flange 4 for clamp plate 5 compresses tightly fixed steady.

As shown in fig. 1, the utility model also provides a tuyere sleeve structure 200, which comprises a tuyere small sleeve 1, a tuyere middle sleeve 2 and a tuyere large sleeve 3 which are internally and externally overlapped and are all arranged in a taper sleeve structure, wherein the large-diameter end of the tuyere small sleeve 1 is hermetically sleeved at the inner side of the small-diameter end of the tuyere middle sleeve 2; the large-diameter end of the tuyere medium sleeve 2 is hermetically arranged at the inner side of the small-diameter end of the tuyere large sleeve 3; the flange 4 is sleeved on the outer wall of one end with the large diameter of the tuyere large sleeve 3, and a structure 100 for preventing the gas leakage of the tuyere is arranged between the tuyere large sleeve 3 and the flange 4. The tuyere large sleeve 3 and the flange 4 are both made of cast steel materials and can be welded at a joint after installation so as to play a role in secondary layer auxiliary sealing, increase the sealing performance and ensure the safety of the tuyere area.

Further, as shown in fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, and fig. 6, the structure 100 for preventing the leakage of the tuyere gas comprises a plurality of pressing plates 5 capable of axially abutting against and fixing the tuyere large sleeve 3 and the flange 4, the pressing plates 5 comprise bent plate portions 50 spanning between the tuyere large sleeve 3 and the flange 4, one end of each bent plate portion 50 is provided with a first top plate portion 51 capable of abutting against the end surface of the flange 4, and the other end of each bent plate portion 50 is provided with a second top plate portion 52 capable of axially abutting against the end surface of the tuyere large sleeve 3; the structure 100 for preventing the gas leakage of the tuyere further comprises an outer conical surface 81 arranged on the outer wall of the large-diameter end of the tuyere large sleeve 3 and an inner conical surface 82 arranged on the inner wall of the flange 4, the outer conical surface 81 can be in sealing abutting contact with the inner conical surface 82, and a sealing ring 83 is arranged between the outer conical surface 81 and the inner conical surface 82.

In the present embodiment, as shown in fig. 1 and 2, a sealing ring groove 31 is provided on the outer tapered surface 81 of the tuyere large sleeve 3, a sealing ring 83 is clamped in the sealing ring groove 31, and the radially outer side of the sealing ring 83 abuts against the inner tapered surface 82 of the flange 4. The sealing ring 83 is resistant to high-temperature gas and has certain elasticity, the gas is sealed through the joint surface of the sealing ring 83 and the flange 4, the traditional single seal (conical surface abutting) of the joint surface which is in hard contact is supplemented, and the first layer of auxiliary sealing effect is achieved.

Further, as shown in fig. 1, 2 and 3, the structure 100 for preventing the leakage of the tuyere gas further comprises at least 3 pin wedge plates 6 circumferentially arranged on the end surface of the flange 4 at intervals, wherein the number of the pin wedge plates 6 is the same as that of the pressure plates 5; each pin wedge plate 6 is provided with a press wedge through groove 61 which is through along the radial direction of the flange, each press plate 5 respectively penetrates through each press wedge through groove 61 and the bent plate part 50 thereof is arranged in the press wedge through groove 61 in a spanning mode, a wedge plate 7 is arranged at one end, far away from the flange 4, of the bent plate part 50 in each press wedge through groove 61 in a wedging mode, the wedge plate 7 is used for fixedly pressing the press plate 5, and the wedge plate 7 is arranged in a trapezoidal plate mode. The pressing plate 5 adopts a wedge plate type fixing and pressing mode, so that the fixing mode of the pressing plate 5 is more flexible, the pressing plate is suitable for pressing plates with various lengths, and the structure is simple, and the installation and the disassembly are convenient.

The utility model provides an among the wind gap cover structure, adopted the structure that prevents wind gap gas leakage to combine the department welding at the wind gap overcoat and flange, in order to play the secondary seal effect, realize the triple seal between wind gap overcoat and the flange, increase the leakproofness, can effectively guarantee the security in wind gap region, be the effective means that realizes blast furnace low-loss, safety.

In the preparation the utility model discloses a during wind gap cover structure 200, process the external conical surface 81 on the outer wall of the big footpath one end of wind gap big cover 3, set up sealed annular 31 on the external conical surface 81, process interior conical surface 82 on the inner wall of flange 4, the back is accomplished in the body preparation of flange 4, welds four round pin wedge plates 6 on keeping away from the terminal surface of wind gap big cover one end, and round pin wedge plate 6 is certain angle and arranges, and other parts of wind gap cover structure 200 process according to prior art can.

When the tuyere large sleeve 3 is installed, the flange 4 is installed on a furnace shell, the outer wall of the flange 4 is fixedly welded with the furnace shell 9, the sealing ring 83 is installed in the sealing ring groove 31 of the tuyere large sleeve 3, then the tuyere large sleeve 3 is pushed into the flange 4, the joint surface is required to be in tight contact, and the outer conical surface 81 is in sealing abutting contact with the inner conical surface 82; and then the pressing plate 5 penetrates through the pressing wedge through groove 61 on the pin wedge plate 6, the first top plate part 51 and the second top plate part 52 of the pressing plate 5 are respectively propped against the end surfaces of the tuyere large sleeve 3 and the flange 4, finally the wedge plate 7 penetrates through the pressing wedge through groove 61 on the pin wedge plate 6 to tightly press the pressing plate 5, and the tuyere large sleeve 3 is tightly pressed. After all the installation is finished, the outer end of the joint surface of the tuyere large sleeve 3 and the flange 4 can be welded for further sealing.

From top to bottom, the utility model provides a prevent structure and wind gap cover structure of wind gap gas leakage has following beneficial effect:

the structure for preventing the gas leakage of the tuyere of the utility model adopts the pressing plate to connect the tuyere large sleeve and the flange, replaces the bolt connection in the prior art, and the pressing plate is fixedly propped against the end surfaces of the tuyere large sleeve and the flange, thereby playing the role of fixing the tuyere large sleeve, and having simple structure and convenient installation; the side wall joint surface of the tuyere large sleeve and the flange is abutted by adopting conical surface sealing and is tightly matched, so that the function of sealing the joint surface of the tuyere large sleeve and the flange is achieved, and main sealing is formed; a sealing ring is arranged between the outer conical surface and the inner conical surface, and a main seal in hard contact is supplemented by a sealing flange of the sealing ring and a large sleeve combining surface of the tuyere, so that coal gas is sealed, and a first layer of auxiliary sealing effect is achieved; the utility model has simple structure, can effectively prevent the gas leakage in the tuyere area, ensures the safety of the tuyere area, and is an effective means for realizing the low consumption and safe production of the blast furnace;

the utility model provides an among the wind gap cover structure, adopted the structure that prevents wind gap gas leakage to combine the department welding at the wind gap overcoat and flange, in order to play the secondary seal effect, realize the triple seal between wind gap overcoat and the flange, increase the leakproofness, can effectively guarantee the security in wind gap region, be the effective means that realizes blast furnace low-loss, safety.

The above description is only exemplary of the present invention, and is not intended to limit the scope of the present invention. Any person skilled in the art should also realize that such equivalent changes and modifications can be made without departing from the spirit and principles of the present invention.

Claims (10)

1. A structure for preventing gas leakage of a tuyere is used between a tuyere large sleeve and a flange which are internally and externally sleeved in a stacking manner, and is characterized by comprising a plurality of pressing plates capable of axially abutting against and fixing the tuyere large sleeve and the flange, wherein each pressing plate comprises a bent plate part which is arranged between the tuyere large sleeve and the flange in a spanning manner, one end of each bent plate part is provided with a first top plate part capable of abutting against the end surface of the flange, and the other end of each bent plate part is provided with a second top plate part capable of axially abutting against the end surface of the tuyere large sleeve; the structure for preventing the gas leakage of the tuyere further comprises an outer conical surface arranged on the outer wall of the tuyere large sleeve and an inner conical surface arranged on the inner wall of the flange, the outer conical surface can be in sealing abutting connection with the inner conical surface, and a sealing ring is arranged between the outer conical surface and the inner conical surface.

2. The structure for preventing tuyere gas leakage of claim 1, further comprising at least 3 pin wedge plates circumferentially spaced on the end surface of the flange, the number of the pin wedge plates being the same as the number of the pressure plates; and each pin wedge plate is provided with a pressing wedge through groove which is radially communicated along the flange, each pressing plate respectively penetrates through each pressing wedge through groove, a bent plate part of each pressing wedge through groove is arranged in the pressing wedge through groove in a spanning mode, one end, which is located at the bent plate part and is far away from the flange, of each pressing wedge through groove is provided with a wedge plate in a wedging mode, and the wedge plates are used for fixedly pressing the pressing plates.

3. The structure for preventing tuyere gas leakage according to claim 2, wherein a length dimension of the first top plate portion of the pressure plate in the axial direction of the flange is smaller than a length dimension of the second top plate portion of the pressure plate in the axial direction of the flange.

4. The structure for preventing tuyere gas leakage according to claim 2, wherein each of the pin wedge plates is a rectangular plate, one end of each of the pin wedge plates is inwardly recessed with the press wedge through groove, and the press wedge through groove is a rectangular opening.

5. The structure for preventing tuyere gas leakage according to claim 2, wherein the number of the pin wedge plates, the pressing plate and the wedge plates is 4, and each of the pin wedge plates is circumferentially and uniformly spaced on the end surface of the flange.

6. A tuyere sleeve structure is characterized by comprising a small tuyere sleeve, a middle tuyere sleeve and a large tuyere sleeve which are internally and externally overlapped and are arranged in a taper sleeve structure, wherein one end with a large diameter of the small tuyere sleeve is hermetically sleeved on the inner side of one end with a small diameter of the middle tuyere sleeve; the large-diameter end of the tuyere medium sleeve is hermetically arranged at the inner side of the small-diameter end of the tuyere large sleeve; the flange is sleeved on the outer wall of the large-diameter end of the tuyere large sleeve, and a structure for preventing gas leakage of the tuyere is arranged between the tuyere large sleeve and the flange.

7. The tuyere sleeve structure of claim 6, wherein the structure for preventing the leakage of the tuyere gas comprises a plurality of pressing plates capable of axially abutting against the fixed tuyere large sleeve and the flange, the pressing plates comprise bent plate portions spanning between the tuyere large sleeve and the flange, one end of each bent plate portion is provided with a first top plate portion capable of abutting against the end surface of the flange, and the other end of each bent plate portion is provided with a second top plate portion capable of axially abutting against the end surface of the tuyere large sleeve; the structure for preventing the gas leakage of the tuyere further comprises an outer conical surface arranged on the outer wall of the large-diameter end of the tuyere large sleeve and an inner conical surface arranged on the inner wall of the flange, the outer conical surface can be in sealing abutting connection with the inner conical surface, and a sealing ring is arranged between the outer conical surface and the inner conical surface.

8. The tuyere sleeve structure of claim 7, wherein the structure for preventing gas leakage from the tuyere further comprises at least 3 pin wedge plates circumferentially spaced on the end surface of the flange, the number of the pin wedge plates being the same as the number of the pressure plates; and each pin wedge plate is provided with a pressing wedge through groove which is radially communicated along the flange, each pressing plate respectively penetrates through each pressing wedge through groove, a bent plate part of each pressing wedge through groove is arranged in the pressing wedge through groove in a spanning mode, one end, which is located at the bent plate part and is far away from the flange, of each pressing wedge through groove is provided with a wedge plate in a wedging mode, and the wedge plates are used for fixedly pressing the pressing plates.

9. The tuyere cover structure of claim 8, wherein each of the pin wedge plates is a rectangular plate, one end of each of the pin wedge plates is inwardly recessed with the wedge pressing through groove, and the wedge pressing through groove is a rectangular opening.

10. The tuyere cover structure of claim 7, wherein a sealing ring groove is annularly formed on the outer conical surface of the tuyere large cover, the sealing ring is clamped in the sealing ring groove, and the radially outer side of the sealing ring is supported against the inner conical surface of the flange in a sealing manner.

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