CN117128764B

CN117128764B - Furnace disassembly machine

Info

Publication number: CN117128764B
Application number: CN202311404342.5A
Authority: CN
Inventors: 李毛毛; 崔勇; 齐鹏飞
Original assignee: Shanxi Chengzhihao Electromechanical Equipment Co ltd
Current assignee: Shanxi Chengzhihao Electromechanical Equipment Co ltd
Priority date: 2023-10-27
Filing date: 2023-10-27
Publication date: 2024-01-02
Anticipated expiration: 2043-10-27
Also published as: CN117128764A

Abstract

The utility model relates to a tear stove machine open relates to engineering machine tool technical field, and it includes tears stove machine body open, tear open stove machine body including the hydraulic hammer that is used for broken bonding sediment, the one end of hydraulic hammer contracts gradually for the pointed end, the hydraulic hammer includes the main hammer body, the main hammer body includes fixed part and movable part, movable part rotates to be connected on the fixed part, be equipped with on the main hammer body and be used for restricting movable part is in gliding sleeve pipe on the fixed part, the sleeve pipe with the coaxial setting of main hammer body, main hammer body sliding connection is in the sleeve pipe, the sleeve pipe with be equipped with between the main hammer body and be used for the drive the movable part carries out pivoted drive assembly, be equipped with on the sleeve pipe and be used for driving the sleeve pipe along main hammer body length direction gliding drive assembly, tear open stove machine body still including being used for the drive hydraulic hammer carries out pivoted rotation assembly. This application has the effect that improves the clearance efficiency of tearing open stove machine to bonding sediment.

Description

Furnace disassembly machine

Technical Field

The application relates to the technical field of engineering machinery, in particular to a furnace disassembly machine.

Background

The furnace disassembling machine is a machine for disassembling refractory layers of steel furnaces, steel ladles, disassembling machines and the like in the smelting industry, and is mainly used for replacing tapping hole drilling operation, cleaning slag adhering to furnace mouths and furnace caps of converters, disassembling furnace lining refractory materials and the like.

A typical furnace disassembly machine comprises a chassis, a cab, a power system, a heat dissipation system, a hydraulic system and a hydraulic hammer, wherein the power system provides power, an operator operates the furnace disassembly machine in the cab, the hydraulic hammer is controlled by the hydraulic system to disassemble a refractory layer of a steelmaking furnace, a steel ladle and a disassembly machine, a tapping hole is replaced for drilling, a converter mouth and a converter cap are cleaned from adhering slag, a furnace lining refractory material is disassembled, and the like.

In the related art, when cleaning converter mouth and the process of the sticking slag of furnace cap, the workman generally carries out the breakage to the sticking slag on the converter mouth through hydraulic system control hydraulic hammer, but when meetting less sticking slag, because the quartering hammer diameter is too big and the sticking slag is small, from this needs the position of operating personnel more meticulous control quartering hammer, not only have a bit of requirement to the proficiency of workman's operation, and probably need the staff to adjust the position of quartering hammer repeatedly in this period to make the pointed end of quartering hammer aim at the sticking slag that needs the clearance, and then probably influence the clearance efficiency of sticking slag.

Disclosure of Invention

In order to improve the cleaning efficiency of the stove machine to the bonding slag of tearing open, this application provides a stove machine of tearing open.

The furnace disassembly machine adopts the following technical scheme:

the utility model provides a tear stove machine open, including tearing open stove machine body, tear open stove machine body including the hydraulic hammer that is used for breaking the bonding sediment, the one end of hydraulic hammer contracts gradually for the pointed end, the hydraulic hammer includes the main hammer body, the main hammer body includes fixed part and movable part, the movable part rotates to be connected on the fixed part, be equipped with on the main hammer body and be used for restricting the movable part is in gliding sleeve pipe on the fixed part, the sleeve pipe with the main hammer body is coaxial to be set up, main hammer body sliding connection is in the sleeve pipe, the sleeve pipe with be equipped with between the main hammer body and be used for the drive movable part carries out pivoted drive assembly, be equipped with on the sleeve pipe and be used for driving the sleeve pipe and follow main hammer body length direction gliding drive assembly, tear open stove machine body still including being used for the drive hydraulic hammer carries out pivoted rotation assembly.

Through adopting above-mentioned technical scheme, can constitute a whole with fixed part and movable part earlier through sheathed tube restriction effect, and the hydraulic hammer on the accessible tear open stove machine body carries out broken clearance to the bonding sediment of converter mouth, when there is the bonding sediment of less diameter in the mouth department of converter, the accessible drive assembly slip sleeve, make drive assembly drive movable part rotate, and then there is certain angle between the fixed part and the movable part, accessible rotation assembly rotates whole hydraulic hammer afterwards, make movable part rotate, and in the rotation process, make movable part carry out rotatory scraping to the bonding sediment of mouth department of converter, and then the quick bonding sediment to the converter mouth of accessible movable part is cleared up, thereby can improve tear open stove machine to bonding sediment's cleaning efficiency.

Optionally, the drive assembly includes the rigid coupling in the driving motor of sleeve pipe arc outer wall, driving motor's output shaft passes the sleeve pipe lateral wall and rigid coupling have drive gear, the rigid coupling has on the main hammer body and follows the main hammer body length direction sets up first drive rack, first drive rack with drive gear meshes mutually.

Through adopting above-mentioned technical scheme, accessible start driving motor makes driving motor drive gear rotate, from this under the meshing effect of drive gear and first rack, makes the main hammer block remove along sheathed tube axis direction, and then makes the sleeve pipe cancel the shielding to fixed part and connecting portion junction, provides the space for the rotation of movable part.

Optionally, a placing groove is formed in the side wall of the fixing portion, the placing groove is formed in the direction of the main hammer body, and the first driving rack is fixedly connected in the placing groove.

Through adopting above-mentioned technical scheme, accessible standing groove improves the stability of first drive rack on the fixed part, reducible hydraulic hammer shared space simultaneously.

Optionally, the main hammer body is provided with a mounting groove for placing the movable part, and the movable part is placed in the mounting groove.

By adopting the technical scheme, the position of the movable part can be limited through the mounting groove, so that the stability of the whole main hammer body is improved.

Optionally, the drive assembly is including rotating the drive gear who connects in the mounting groove, the rigid coupling has on the sheathed tube inner wall along the second drive rack that sleeve pipe length direction set up, the second drive rack with drive gear meshes mutually, the mounting groove internal rotation is connected with the transmission shaft, the driving gear with transmission shaft rigid coupling and coaxial setting, the one end rigid coupling of movable part is in on the transmission shaft, the driving gear with be equipped with the change gear between the drive gear, the change gear rotates to be connected in the mounting groove, just the change gear simultaneously with the driving gear with drive gear meshes mutually.

Through adopting above-mentioned technical scheme, when the sleeve pipe removes, the second drive rack can remove together with the sleeve pipe to can rotate with the drive gear of second drive rack meshing at the removal in-process of second drive rack, make the turning gear rotate from this, can rotate with the driving gear of turning gear meshing simultaneously, and then make the transmission shaft rotate, make the epaxial movable part of fixed connection transmission rotate simultaneously, realize the rotation of movable part fast from this.

Optionally, the rotating assembly includes with the coaxial setting of main weight body and rotate the erection column of being connected, the erection column is located the main weight body is kept away from the one side of self pointed end, the erection column is towards one side of main weight body is seted up flutedly, install the rotation motor in the recess, the output shaft of rotation motor with the coaxial setting and the rigid coupling of main weight body.

Through adopting above-mentioned technical scheme, accessible start the rotation motor, make rotation motor drive main hammer block and rotate, from this whole hydraulic hammer of quick control rotates.

Optionally, the movable part is close to main hammer body pointed end one side has seted up the through-hole, the both sides of through-hole all are equipped with strike off the pinion rack, strike off pinion rack sliding connection and be in the through-hole, strike off the pinion rack and be close to one side of standing groove tank bottom sets up to the inclined plane just strike off the pinion rack from being close to through-hole one side to keeping away from through-hole one side shrink gradually, two strike off and be equipped with a plurality of coupling assembling that are used for making both keep away from the state each other between the pinion rack.

Through adopting above-mentioned technical scheme, accessible strike off pinion rack improves the clearance efficiency of movable part to the slag of converter mouth, and two strike off pinion racks simultaneously can keep the state of keeping away from each other under coupling assembling's effect, and from this after movable part leaves the mounting groove, two strike off pinion racks can be automatic to one side roll-off through-hole that keeps away from each other, simultaneously when the in-process that movable part got back to the mounting groove, can strike off the pinion rack and get back to inside the through-hole under the butt effect of swash plate and mounting groove that strike off the pinion rack.

Optionally, the coupling assembling is including the rigid coupling is in fixed section of thick bamboo in the through-hole, it has the slide bar to slide in the fixed section of thick bamboo, the one end and two of slide bar strike off one of them strike off the pinion rack rigid coupling, the one end of fixed section of thick bamboo with two strike off the other one of pinion rack rigid coupling, the slide bar with be equipped with the elastic component that is used for connecting both between the fixed section of thick bamboo, two under the effect of elastic component strike off the pinion rack and remove to one side that keeps away from each other.

Through adopting above-mentioned technical scheme, the sliding direction of two striking off the pinion rack of accessible slide bar in fixed section of thick bamboo gliding mode, stability when improving two striking off the pinion rack and being close to each other or keeping away from each other one side removal mutually.

Optionally, the elastic component is set as the spring, the one end of spring with the barrel head rigid coupling of fixed section of thick bamboo, the other end of spring with the tip rigid coupling of slide bar.

Through adopting above-mentioned technical scheme, the effect that two striking off the pinion rack and keep one side removal trend that keeps away from each other can be realized to the spring, and the spring is with low costs repeatedly usable.

Optionally, a heat shield is arranged outside the driving motor, and the heat shield is fixedly connected to the arc-shaped outer side wall of the sleeve.

Through adopting above-mentioned technical scheme, the heat shield can be used for isolating most of heat outside, so that the influence on the operation of a driving motor caused by overhigh temperature outside is reduced.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the driving assembly can slide the sleeve, so that the driving assembly drives the movable part to rotate, a certain angle exists between the movable part and the fixed part, and then the whole hydraulic hammer can be rotated through the rotating assembly, so that the movable part rotates, and the slag at the furnace mouth of the converter is scraped in the rotating process, so that the slag at the furnace mouth of the converter can be cleaned rapidly through the movable part, and the cleaning efficiency of the furnace dismantling machine on the slag can be improved;

2. the stability of the first driving rack on the fixed part can be improved through the placing groove, and meanwhile, the occupied space of the hydraulic hammer can be reduced;

3. the cleaning efficiency of the movable part to the slag at the converter mouth can be improved by scraping the toothed plate.

Drawings

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

FIG. 2 is a schematic structural view of a fixing portion according to an embodiment of the present application;

FIG. 3 is a schematic view of a drive motor in an embodiment of the present application with a heat shield and sleeve hidden;

FIG. 4 is an enlarged schematic view of the portion A of FIG. 2;

FIG. 5 is a schematic structural view of a connection assembly according to an embodiment of the present application;

fig. 6 is a schematic structural view of an elastic member according to an embodiment of the present application.

In the figure, 1, a furnace disassembly machine body; 2. a hydraulic hammer; 21. a main hammer body; 211. a fixing part; 212. a movable part; 2121. a through hole; 2122. scraping the toothed plate; 2123. a connection assembly; 21231. a slide bar; 21232. a fixed cylinder; 21233. an elastic member; 213. a placement groove; 214. a mounting groove; 22. a sleeve; 23. a transmission assembly; 231. a transmission gear; 232. a second drive rack; 233. a transmission shaft; 234. a drive gear; 235. a change gear; 24. a drive assembly; 241. a driving motor; 242. a drive gear; 243. a first drive rack; 3. a rotating assembly; 31. a mounting column; 311. a groove; 32. a rotating motor; 4. and a heat shield.

Detailed Description

The present application is described in further detail below with reference to fig. 1-6.

The embodiment of the application is as follows: a furnace disassembly machine, referring to fig. 1, comprises a furnace disassembly machine body 1, wherein the furnace disassembly machine body 1 comprises a hydraulic hammer 2 for crushing converter slag adhesion. One end of the hydraulic hammer 2 gradually contracts to a tip, the hydraulic hammer 2 includes a sleeve 22 and a main hammer body 21 slidably connected in the sleeve 22, and the main hammer body 21 is coaxially disposed with the sleeve 22.

Referring to fig. 2 and 3, a rotating assembly 3 for connecting the two is arranged between the hydraulic hammers 2 of the furnace disassembly machine body 1, the rotating assembly 3 comprises a mounting column 31 connected to the furnace disassembly machine body 1, the mounting column 31 and the sleeve 22 are coaxially arranged, one end, close to the sleeve 22, of the mounting column 31 is rotationally connected with the sleeve 22, a groove 311 is formed in one side, facing the sleeve 22, of the mounting column 31, a rotating motor 32 is arranged in the groove 311, and an output shaft of the rotating motor 32 and the mounting column 31 are coaxially arranged and fixedly connected with the end part of the sleeve 22.

Thereby, the rotating motor 32 is started, and the rotating motor 32 can drive the sleeve 22 to rotate, so that the whole hydraulic hammer 2 rotates.

The side wall of the main hammer body 21 is provided with two placing grooves 213, the placing grooves 213 are arranged along the length direction of the main hammer body 21, and the two placing grooves 213 are respectively positioned at two sides of the main hammer body 21. The sleeve 22 is provided with driving components 24 for driving the main hammer body 21 to slide in the sleeve 22, the driving components 24 are arranged in two groups, and the driving components 24 are in one-to-one correspondence with the placing grooves 213.

The driving assembly 24 comprises a driving motor 241 fixedly connected to the arc-shaped outer side wall of the sleeve 22, an output shaft of the driving motor 241 penetrates through the arc-shaped side wall of the sleeve 22 and is arranged in the placing groove 213, a first driving rack 243 is fixedly connected in the placing groove 213, the first driving rack 243 is arranged along the opening direction of the placing groove 213, a driving gear 242 is arranged in the placing groove 213, and the driving gear 242 and the output shaft of the driving motor 241 are coaxially arranged and fixedly connected.

Thereby, the two driving motors 241 are started simultaneously, and the driving motor 241 can drive the driving gear 242 to rotate, so that the main hammer body 21 can slide in the sleeve 22 along the axial direction of the sleeve 22 under the meshing effect of the driving gear 242 and the first driving rack 243. Meanwhile, in order to reduce the influence of high temperature on the driving motor 241 in the daily use process, the driving motor 241 is sleeved with the heat shield 4, and the heat shield 4 is fixedly connected to the arc-shaped outer side wall of the sleeve 22.

The main hammer body 21 comprises a fixed part 211 and a movable part 212, wherein one side of the movable part 212, which is close to the tip of the hydraulic hammer 2, is provided with an inclined plane, the fixed part 211 is provided with a mounting groove 214 which is arranged along the length direction of the fixed part 211, the movable part 212 is arranged in the mounting groove 214, and one end, which is far away from the tip of the hydraulic hammer 2, of the movable part 212 is rotatably connected in the mounting groove 214. A transmission assembly 23 for driving the movable part 212 to rotate is arranged between the sleeve 22 and the main hammer body 21.

Referring to fig. 2 and 4, the transmission assembly 23 includes a second driving rack 232 fixedly connected to an inner sidewall of the sleeve 22, the second driving rack 232 is disposed along a length direction of the sleeve 22, the second driving rack 232 is located at one end of the sleeve 22 near the movable portion 212, a transmission gear 231 is engaged on one side of the second driving rack 232, the transmission gear 231 is disposed in the mounting groove 214, a transmission shaft 233 is disposed in the mounting groove 214, the transmission shaft 233 is rotatably connected in the mounting groove 214, the transmission gear 231 is fixedly connected to the transmission shaft 233, and the transmission gear 231 and the transmission shaft 233 are coaxially disposed. A direction-changing gear 235 is meshed with one side of the transmission gear 231, the direction-changing gear 235 is rotatably connected to the mounting groove 214 through the same transmission shaft 233, a driving gear 242 is meshed with one side of the direction-changing gear 235 away from the transmission gear 231, and the driving gear 242 is rotatably connected to the mounting groove 214 through the same transmission shaft 233. One end of the movable portion 212, which is far away from the tip end of the main hammer body 21, is fixedly connected to a transmission shaft 233 where the driving gear 242 is located, whereby the movable portion 212 is rotatably connected to the mounting groove 214 through the transmission shaft 233.

When the driving assembly 24 drives the sleeve 22 to move along the main hammer 21 toward the tip of the hydraulic hammer 2, the second driving rack 232 drives the driving gear 231 to rotate through the meshing effect of the driving gear 231, so that the turning gear 235 meshed with the driving gear 231 rotates, the driving gear 234 meshed with the turning gear 235 rotates, the driving shaft 233 where the driving gear 234 is located rotates, and therefore the movable portion 212 fixedly connected to the driving shaft 233 rotates toward the mounting groove 214, and finally the movable portion 212 returns to the mounting groove 214. And at the same time, the sleeve 22 can limit the position of the movable part 212 at the fixed part 211, so that the stability of the movable part 212 at the fixed part 211 is improved.

Referring to fig. 5 and 6, a through hole 2121 is formed at one end of the movable portion 212 near the tip of the hydraulic hammer 2, the direction of the through hole 2121 is perpendicular to the direction of the axis of the main hammer body 21, scraping toothed plates 2122 are arranged at two sides of the through hole 2121, teeth on the scraping toothed plates 2122 are located at one sides of the two scraping toothed plates 2122 far away from each other, and the two scraping toothed plates 2122 are slidably connected in the through hole 2121. A plurality of connection members 2123 for keeping the two scraping plates 2122 away from each other are provided between the two scraping plates.

Attachment assembly 2123 includes a plurality of fixed cylinders 21232, fixed cylinders 21232 disposed in parallel with each other about axes of fixed cylinders 21232, fixed cylinders 21232 being fixedly attached to one of two scraping tooth plates 2122 at one end of fixed cylinders 21232 within attachment throughbore 2121. One end of fixed cylinder 21232, which is far away from the fixed connection of itself and scraping toothed plates 2122, is slidably inserted with a sliding rod 21231, a sliding rod 21231 is coaxially arranged with fixed cylinder 21232, one end of sliding rod 21231, which is far away from fixed cylinder 21232, is fixedly connected with the other scraping toothed plate 2122 of the two scraping toothed plates 2122, and an elastic piece 21233 for connecting the sliding rod 21231 and fixed cylinder 21232 is arranged between the sliding rod and the fixed cylinder. In the figure, the elastic member 21233 is a spring, one end of the spring is fixedly connected with the end of the slide rod 21231, the other end of the spring is fixedly connected with the bottom of the fixed cylinder 21232, and the spring is in a normal state in the figure.

When the movable portion 212 slides out of the mounting groove 214, the scraping plate 2122 slides out of the through hole 2121 under the elastic force of the spring. Meanwhile, in order to facilitate the scraping toothed plate 2122 to slide into the through hole 2121 when the movable portion 212 enters the mounting groove 214, one side of the scraping toothed plate 2122 close to the bottom of the placing groove 213 is set to be an inclined plane, and the scraping toothed plate 2122 gradually contracts from one side close to the through hole 2121 to one side far away from the through hole 2121, so that when the movable portion 212 enters the mounting groove 214, one side of the inclined plane of the scraping toothed plate 2122 can be abutted with the side wall of the mounting groove 214, and therefore the spring is compressed, and meanwhile the scraping toothed plate 2122 slides to one side inside the through hole 2121, and the scraping toothed plate is placed in the through hole 2121.

The implementation principle of the embodiment of the application is as follows: the hydraulic hammer 2 on the disassembly machine body 1 can crush and clean the slag at the converter mouth, when the slag with smaller diameter at the converter mouth is cleaned, the driving motor 241 is started, the driving motor 241 drives the sleeve 22 to slide to one side far away from the tip of the hydraulic hammer 2 through the first driving rack 243 and the driving gear 242, meanwhile, the sleeve 22 drives the transmission gear 231 to rotate through the second driving rack 232 in the sliding process, the movable part 212 is driven to rotate out of the mounting groove 214 under the action of the turning gear 235 and the driving gear 234, a certain angle exists between the movable part 212 and the fixed part 211, and then the rotating motor 32 can be started to drive the whole hydraulic hammer 2 to rotate, so that the movable part 212 rotates around the axis of the hydraulic hammer 2, and in the rotating process, the movable part 212 rotates and scrapes the slag at the converter mouth.

The embodiments of this embodiment are all preferred embodiments of the present application, and are not intended to limit the scope of the present application, in which like parts are denoted by like reference numerals. Therefore: all equivalent changes in structure, shape and principle of this application should be covered in the protection scope of this application.

Claims

1. The utility model provides a tear stove open machine open, including tearing open stove machine body (1), tear open stove machine body (1) including being used for breaking and gluing hydraulic hammer (2) of sediment, the one end of hydraulic hammer (2) contracts gradually for the pointed end, a serial communication port, hydraulic hammer (2) include main hammer body (21), main hammer body (21) include fixed part (211) and movable part (212), movable part (212) rotate to be connected on fixed part (211), be equipped with on main hammer body (21) and be used for restricting movable part (212) are in fixed part (211) gliding sleeve pipe (22), sleeve pipe (22) with main hammer body (21) coaxial setting, main hammer body (21) sliding connection is in sleeve pipe (22), sleeve pipe (22) with be equipped with between main hammer body (21) be used for the drive movable part (212) carries out pivoted drive assembly (23), be equipped with on sleeve pipe (22) and be used for driving sleeve pipe (22) along main hammer body (21) length direction gliding sleeve pipe (22), drive assembly (24) still includes that drive assembly (3) rotate, drive machine (3) is used for rotating.

2. The furnace disassembly machine according to claim 1, wherein the driving assembly (24) comprises a driving motor (241) fixedly connected to the arc-shaped outer wall of the sleeve (22), an output shaft of the driving motor (241) penetrates through the side wall of the sleeve (22) and is fixedly connected with a driving gear (242), a first driving rack (243) arranged along the length direction of the main hammer (21) is fixedly connected to the main hammer (21), and the first driving rack (243) is meshed with the driving gear (242).

3. The furnace disassembly machine according to claim 2, wherein a placement groove (213) is formed in the side wall of the fixing portion (211), the placement groove (213) is arranged along the degree direction of the main hammer body (21), and the first driving rack (243) is fixedly connected in the placement groove (213).

4. A furnace disassembly machine according to claim 3, characterized in that the main hammer body (21) is provided with a mounting groove (214) for placing the movable part (212), and the movable part (212) is placed in the mounting groove (214).

5. The furnace disassembly machine according to claim 4, wherein the transmission assembly (23) comprises a transmission gear (231) rotatably connected in the mounting groove (214), a second driving rack (232) arranged along the length direction of the sleeve (22) is fixedly connected on the inner wall of the sleeve (22), the second driving rack (232) is meshed with the transmission gear (231), a transmission shaft (233) is rotatably connected in the mounting groove (214), a driving gear (234) is arranged on the transmission shaft (233), the driving gear (234) is fixedly connected with the transmission shaft (233) and coaxially arranged, a turning gear (235) is arranged between one end of the movable part (212) and the transmission gear (231), and the turning gear (235) is rotatably connected in the mounting groove (214) and simultaneously meshed with the driving gear (234) and the transmission gear (231).

6. The furnace disassembly machine according to claim 1, wherein the rotating assembly (3) comprises a mounting column (31) coaxially arranged and rotationally connected with the main hammer body (21), the mounting column (31) is positioned at one side, far away from the tip of the main hammer body (21), a groove (311) is formed in one side, facing the main hammer body (21), of the mounting column (31), a rotating motor (32) is arranged in the groove (311), and an output shaft of the rotating motor (32) is coaxially arranged and fixedly connected with the main hammer body (21).

7. The furnace disassembly machine according to claim 5, wherein a through hole (2121) is formed in one side of the movable portion (212) close to the tip of the main hammer body (21), scraping toothed plates (2122) are arranged on two sides of the through hole (2121), the scraping toothed plates (2122) are slidably connected in the through hole (2121), one side of the scraping toothed plates (2122) close to the bottom of the holding groove (213) is provided with an inclined plane, the scraping toothed plates (2122) gradually shrink from one side close to the through hole (2121) to one side far away from the through hole (2121), and a plurality of connecting components (2123) for keeping the scraping toothed plates in a mutually separated state are arranged between the two scraping toothed plates (2122).

8. The furnace disassembly machine according to claim 7, wherein the connecting assembly (2123) comprises a fixed barrel (21232) fixedly connected in the through hole (2121), a sliding rod (21231) is inserted in the fixed barrel (21232) in a sliding manner, one end of the sliding rod (21231) is fixedly connected with one (2122) of the two scraping tooth plates (2122), one end of the fixed barrel (21232) is fixedly connected with the other (2122) of the two scraping tooth plates (2122), an elastic piece (21233) for connecting the two scraping tooth plates (2122) is arranged between the sliding rod (21231) and the fixed barrel (21232), and the two scraping tooth plates (2122) move to the side far away from each other under the action of the elastic piece (21233).

9. The furnace disassembly machine according to claim 8, wherein the elastic member (21233) is provided as a spring, one end of the spring is fixedly connected with the barrel bottom of the fixed barrel (21232), and the other end of the spring is fixedly connected with the end of the sliding rod (21231).

10. Furnace disassembly machine according to claim 2, characterized in that the drive motor (241) is provided with a heat shield (4) outside, the heat shield (4) being fixedly connected to the arc-shaped outer side wall of the sleeve (22).