CN220664257U - Slag soil clearing and transporting device - Google Patents

Abstract

The present disclosure relates to the technical field of construction equipment, and more particularly, to a muck clearing device, which includes: the muck collecting mechanism comprises a collecting box and a muck guiding cylinder for a drill rod to pass through, the collecting box is provided with an inner cavity capable of containing muck and a discharge hole communicated with the inner cavity, the muck guiding cylinder is positioned below the collecting box, and the muck guiding cylinder is connected with the collecting box and communicated with the inner cavity; the muck conveying mechanism comprises a conveying belt, and the conveying belt is positioned below the discharge hole; and the discharging mechanism is configured to discharge the dregs in the inner cavity through the discharging hole. Through setting up collecting box, dregs guide section of thick bamboo, defeated material area and discharge mechanism, drilling rod drilling guide section of thick bamboo drills, and the earth that produces enters into the inner chamber of collecting box to discharge dregs through discharge gate through discharge mechanism on the defeated material area that is located the discharge gate below, can realize in time clear the transporting of dregs, avoid dregs to pile up and influence drilling, efficient reduces artifical and time cost.

Description

Slag soil clearing and transporting device

Technical Field

The disclosure relates to the technical field of construction equipment, in particular to a slag soil clearing device.

Background

Pile foundations are a common underground foundation structure for carrying the gravitational and horizontal loads of a building or other engineered structure.

Pile foundation construction is a foundation structure form for providing stable bearing capacity, and particularly in railway engineering foundation treatment, the foundation structure form solves the foundation problems of weak soil, low bearing capacity, large settlement, uneven settlement and the like. In actual pile foundation work progress, the earth in the stake hole can fall the outside of drilling along the drilling rod, in order not to influence the efficiency of drilling, need in time clear the dregs, need be equipped with suitable equipment and manpower at job site at present, clear efficiency is lower, leads to the efficiency of pile foundation construction lower, influences whole construction progress.

Disclosure of Invention

In order to solve the technical problems, the present disclosure provides a muck clearing device.

The present disclosure provides a muck clearing device, comprising:

the muck collecting mechanism comprises a collecting box and a muck guiding cylinder for a drill rod to pass through, wherein the collecting box is provided with an inner cavity capable of containing muck and a discharge hole communicated with the inner cavity, the muck guiding cylinder is positioned below the collecting box, and the muck guiding cylinder is connected with the collecting box and is communicated with the inner cavity;

the muck conveying mechanism comprises a conveying belt, and the conveying belt is positioned below the discharge hole;

and the discharging mechanism is configured to discharge the dregs in the inner cavity through the discharging hole.

Optionally, the discharging mechanism comprises a discharging assembly, the discharging assembly comprises a rotating shaft and a spiral blade arranged on the rotating shaft, the rotating shaft penetrates through the discharging hole, and the spiral blade is positioned in the inner cavity.

Optionally, the discharging mechanism comprises a discharging barrel, one axial end of the discharging barrel is provided with an opening, the other axial end of the discharging barrel is closed, the discharging barrel is connected to the collecting box, the opening of the discharging barrel is communicated with the discharging hole, and the barrel wall of the discharging barrel is provided with a discharging hole.

Optionally, one end of the spiral blade in the axial direction of the rotating shaft extends into the discharge cylinder.

Optionally, the discharging barrel is provided with a muck guide plate at the discharging hole, the muck guide plate is arranged in a downward inclined manner in the vertical direction, and the material conveying belt is positioned below the guide plate.

Optionally, the discharging assembly further comprises a crushing cutter for crushing the dregs, wherein the crushing cutter is arranged on the rotating shaft and is positioned in the discharging barrel.

Optionally, the collecting box is provided with two discharge holes on the same side, and each discharge hole is correspondingly provided with one discharge mechanism.

Optionally, the discharging mechanism further comprises a discharging driving assembly, the discharging driving assembly is arranged on the discharging cylinder, and the discharging driving assembly is used for driving the rotating shaft to rotate.

Optionally, the discharging driving assembly comprises a discharging motor, the discharging motor is in transmission connection with the rotating shaft, and the discharging motor is arranged on the discharging cylinder.

Optionally, the collection box comprises a box body and supporting legs connected to the box body and located below the box body, and the length of the muck guiding cylinder is smaller than or equal to that of the supporting legs.

Optionally, the muck transporting mechanism further comprises a supporting frame, a first transporting roller and a second transporting roller are arranged on the supporting frame, and the transporting belt is wound on the first transporting roller and the second transporting roller;

in the vertical direction, the first conveying roller is higher than the second conveying roller, and the second conveying roller is positioned below the discharge hole.

Optionally, the support frame includes backup pad and the mobilizable support body that the slope set up, the backup pad connect in the support body, in the vertical direction, the first end of backup pad is higher than the second end, first transmission roller set up in the first end of backup pad, the second transmission roller set up in the second end of backup pad.

Optionally, the second end of the supporting plate is provided with a lower baffle plate;

and/or the supporting plates are provided with side baffle plates at two sides of the feeding belt in the width direction.

Optionally, the muck transporting mechanism further comprises a conveying driving assembly, the conveying driving assembly comprises a conveying motor, the conveying motor is in transmission connection with the first conveying roller, and the conveying motor is arranged on the supporting frame.

Compared with the prior art, the technical scheme provided by the embodiment of the disclosure has the following advantages:

through setting up collecting box, dregs guide section of thick bamboo, defeated material area and discharge mechanism, drilling rod drilling guide section of thick bamboo drills, and the earth that produces enters into the inner chamber of collecting box to discharge dregs through discharge gate through discharge mechanism on the defeated material area that is located the discharge gate below, can realize in time clear the transporting of dregs, avoid dregs to pile up and influence drilling, efficient reduces artifical and time cost.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the disclosure and together with the description, serve to explain the principles of the disclosure.

In order to more clearly illustrate the embodiments of the present disclosure or the solutions in the prior art, the drawings that are required for the description of the embodiments or the prior art will be briefly described below, and it will be obvious to those skilled in the art that other drawings can be obtained from these drawings without inventive effort.

FIG. 1 is a schematic view of a muck clearing apparatus according to an embodiment of the present disclosure;

FIG. 2 is a schematic cross-sectional view of a muck clearing device according to an embodiment of the present disclosure;

FIG. 3 is a schematic view of a muck collection mechanism and a discharge mechanism according to an embodiment of the present disclosure;

FIG. 4 is a schematic view of a discharge assembly and a discharge drive assembly according to an embodiment of the present disclosure;

FIG. 5 is a schematic view of a discharge cartridge according to an embodiment of the present disclosure;

FIG. 6 is a schematic structural view of a muck transport mechanism according to an embodiment of the present disclosure;

FIG. 7 is a schematic view of a partial structure of a muck transporting mechanism according to an embodiment of the present disclosure;

fig. 8 is a schematic diagram of a partial structure of a muck transporting mechanism according to an embodiment of the present disclosure.

1, a muck collecting mechanism; 11. a collection box; 111. a case; 1111. an inner cavity; 1112. a discharge port; 112. support legs; 12. a slag guiding cylinder;

2. a muck transporting mechanism; 21. a material conveying belt; 22. a support frame; 221. a support plate; 2211. a lower baffle plate; 2212. a side baffle plate; 222. a frame body; 2221. a mounting shaft; 223. a rotating wheel; 23. a first conveying roller; 24. a second conveying roller; 25. a feed drive assembly; 251. a material conveying motor; 252. a third driving wheel; 253. a second belt; 254. a fourth driving wheel; 26. a second shield;

3. a discharging mechanism; 31. a discharge cylinder; 311. a discharge port; 312. a slag guiding plate; 32. a discharge assembly; 321. a rotating shaft; 322. a helical blade; 323. a crushing knife; 33. a discharge drive assembly; 331. a discharging motor; 332. a first driving wheel; 333. a first belt; 334. a second driving wheel; 34. a first protective cover.

Detailed Description

In order that the above objects, features and advantages of the present disclosure may be more clearly understood, a further description of aspects of the present disclosure will be provided below. It should be noted that, without conflict, the embodiments of the present disclosure and features in the embodiments may be combined with each other.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present disclosure, but the present disclosure may be practiced otherwise than as described herein; it will be apparent that the embodiments in the specification are only some, but not all, embodiments of the disclosure.

The embodiment of the disclosure provides a muck clearing device, which is mainly used for clearing muck generated by drilling when drilling is performed in the pile foundation construction process, and can be used in other occasions needing to drill.

As shown in fig. 1 to 8, the muck cleaning device includes a muck collecting mechanism 1, a muck transporting mechanism 2, and a discharging mechanism 3. Wherein, dregs collection mechanism 1 includes collecting box 11 and supplies the drilling rod to pass dregs guide tube 12, and collecting box 11 has the inner chamber 1111 that can hold dregs and the discharge gate 1112 of intercommunication inner chamber 1111, and dregs guide tube 12 is located collecting box 11 below, and dregs guide tube 12 is connected in collecting box 11 and communicates inner chamber 1111. The muck transporting mechanism 2 comprises a conveying belt 21, and the conveying belt 21 is positioned below the discharge hole 1112. The discharging mechanism 3 is used for discharging the dregs in the cavity 1111 through the discharging hole 1112.

Understandably, by arranging the collecting box 11, the muck guiding cylinder 12, the conveying belt 21 and the discharging mechanism 3, the drill rod penetrates through the muck guiding cylinder 12 to drill holes, produced soil enters the inner cavity 1111 of the collecting box 11, and the muck is discharged to the conveying belt 21 below the discharging hole 1112 through the discharging mechanism 3, so that the muck can be cleared in time, the drill holes are prevented from being affected by muck accumulation, the efficiency is high, and the labor and time cost are reduced.

As shown in fig. 1 to 3, in some embodiments, the collecting tank 11 includes a tank 111 and a supporting leg 112 connected to the tank 111 and located below the tank 111, the tank 111 has an inner cavity 1111 and a discharge port 1112 communicating with the inner cavity 1111, and the length of the residue guiding cylinder 12 is equal to the length of the supporting leg 112.

Understandably, in use, the length of the muck guiding cylinder 12 is equal to the length of the supporting legs 112, and the supporting legs 112 and the muck guiding cylinder 12 can simultaneously contact the ground to support the box body 111, which is beneficial to ensuring the stability of the collecting box 11. Moreover, the muck guiding cylinder 12 contacts the ground, so that muck in the drilled hole can be prevented from overflowing through a gap between the muck guiding cylinder 12 and the ground.

Of course, in other embodiments, the length of the slag guiding drum 12 may also be set to be less than the length of the support legs 112. In use, the ground may be grooved and the support legs 112 placed in the grooves such that the slag guide posts 12 are in contact with the ground.

Illustratively, in one particular implementation, the housing 111 and support legs 112 are made of a metallic material, such as stainless steel, to ensure sufficient structural strength of the collection tank 11.

Illustratively, in a specific implementation, referring to fig. 3, the box 111 is a rectangular box, and the four support legs 112 are provided, and the four support legs 112 are distributed in a rectangular shape, so as to ensure that the collecting box 11 can stand stably.

As shown in fig. 1 to 5, the discharging mechanism 3 comprises a discharging assembly 32, the discharging assembly 32 comprises a rotating shaft 321 and a spiral blade 322 arranged on the rotating shaft 321, the rotating shaft 321 penetrates through the discharging hole 1112, and the spiral blade 322 is positioned in the inner cavity 1111. The rotating shaft 321 drives the spiral blade 322 to rotate so as to discharge the dregs in the inner cavity 1111 through the discharge hole 1112.

The adoption of the helical blades 322 for conveying the dregs is beneficial to the uniform discharge of the dregs, improves the discharge efficiency, avoids the accumulation of the dregs in the inner cavity 1111 and also avoids the blockage of the discharge hole 1112 by the dregs.

Further, as shown in fig. 4, the discharging mechanism 3 further includes a discharging barrel 31, one axial end of the discharging barrel 31 has an opening, the other axial end is closed, the discharging barrel 31 is connected to the collecting box 11, the opening of the discharging barrel 31 is communicated with the discharging hole 1112, and the barrel wall of the discharging barrel 31 is provided with a discharging hole 311.

Specifically, in a specific implementation manner, the discharge cylinder 31 is made of a wear-resistant material, so that the inner wall is smooth, smooth discharge of the dregs is ensured, and adhesion of the dregs on the inner wall of the discharge cylinder 31 is avoided.

Further, one end of the spiral blade 322 in the axial direction of the rotation shaft 321 extends into the discharge cylinder 31. This allows the slag in the collection bin 11 to be better transported to the inside of the discharge cylinder 31 by the rotation of the spiral blade 322.

Further, the discharge cylinder 31 is provided with a muck guide plate 312 at the discharge port 311, the muck guide plate 312 is provided obliquely downward in the vertical direction, and the material conveying belt 21 is positioned below the muck guide plate 312.

By providing the muck guide plate 312, muck can be guided to fall on the conveyor belt 21, so that the discharging speed is increased, and the possibility that muck falls outside the conveyor belt 21 is reduced.

Further, as shown in fig. 3 and 5, the discharging assembly 32 further includes a crushing blade 323 for crushing the residue soil, and the crushing blade 323 is disposed on the rotating shaft 321 and is located in the discharging drum 31.

Understandably, by providing the crushing knife 323, the slag entering the discharge barrel 31 can be crushed, which is beneficial to smooth discharge of the slag, prevents the slag from blocking the discharge hole 311, and improves the discharge efficiency. While its discharge cylinder 31 also provides a space for the crushing blade 323, preventing the crushing blade 323 from chipping out when crushing the slag.

Illustratively, in one specific implementation, referring to fig. 5, the pulverizing knife 323 is provided in plurality to further enhance the pulverizing effect of the muck.

Illustratively, in one specific implementation, referring to fig. 5, the crushing blade 323 is composed of four blades disposed obliquely in a cross-shaped manner on the rotation shaft. Is beneficial to improving the crushing effect on the dregs.

Further, as shown in fig. 3 to 5, the discharging mechanism 3 further includes a discharging driving component 33, the discharging driving component 33 is disposed on the discharging barrel 31, and the discharging driving component 33 is used for driving the rotating shaft 321 to rotate.

Specifically, the discharging driving assembly 33 includes a discharging motor 331, the discharging motor 331 is drivingly connected to the rotating shaft 321, and the discharging motor 331 is disposed on the discharging barrel 31. The discharge motor 331 drives the rotating shaft 321 to rotate, and conveying of the dregs is achieved through the spiral blades 322, and the dregs are crushed through the crushing cutters 323.

Further, the discharge driving assembly 33 further includes a first driving wheel 332, a second driving wheel 334 and a first driving belt 333. Wherein, the discharge motor 331 is mounted on the discharge cylinder 31, the first driving wheel 332 is connected to a motor shaft of the discharge motor 331, the second driving wheel 334 is connected to the rotating shaft 321, and the first driving belt 333 is wound on the first driving wheel 332 and the second driving wheel 334. The discharging motor 331 drives the first driving wheel 332 to rotate, the first driving wheel 332 drives the second driving wheel 334 to rotate through the first driving belt 333, and then drives the rotating shaft 321 to rotate, and the slag is conveyed through the spiral blade 322 and crushed through the crushing knife 323.

The rotation shaft 321 is rotatably provided to the collection tank 11 and the discharge cylinder 31. Specifically, one end of the rotating shaft 321 is rotatably disposed on the collecting box 11, the other end is rotatably disposed on the closed end of the discharge cylinder 31, and the end extends out of the discharge cylinder 31 to be connected with the second driving wheel 334.

In addition, the discharging mechanism 3 further comprises a first protection cover 34 covered on the first driving belt 333, the first driving wheel 332 and the second driving wheel 334. The first protective cover 34 provides protection for the first belt 333, the first drive wheel 332, and the second drive wheel 334, reducing the risk of damage, extending the service life of the apparatus, and reducing maintenance costs.

As shown in fig. 3 to 5, the collecting box 11 is provided with two discharge ports 1112 on the same side, and each discharge port 1112 is provided with a discharge mechanism 3.

Understandably, each discharge port 1112 is provided with a discharge cylinder 31, a discharge assembly 32 and a discharge driving assembly 33, respectively, so that the slag is discharged outwardly through the two discharge ports 1112, and the discharge efficiency can be improved.

It should be noted that the two discharging mechanisms 3 are symmetrically disposed, and the discharging opening 311 of each discharging barrel 31 faces the other discharging barrel 31. By this arrangement, the dregs can be made to fall down to the lower area between the two discharge cylinders 31, which is advantageous in reducing the width of the conveying belt 21.

Further, the rotating shafts 321 of the two discharging assemblies 32 are located at two opposite sides of the communication port of the slag guiding cylinder 12 and the inner cavity 1111, so that slag in the inner cavity 1111 can be discharged from two sides of the communication port simultaneously, the discharging time is reduced, and the phenomenon that slag on one side is excessively accumulated and overflows the collecting box 11 is avoided.

Further, the two discharge cylinders 31 are integrally constructed in order to reduce the number of parts and the difficulty of assembly. Of course, the two discharging cylinders 31 may be separately provided and connected to the collecting tank 11.

As shown in fig. 6 to 8, the muck transporting mechanism 2 further includes a supporting frame 22, a first transporting roller 23 and a second transporting roller 24 are provided on the supporting frame 22, and the transporting belt 21 is wound around the first transporting roller 23 and the second transporting roller 24. In the vertical direction, the first conveying roller 23 is located at a higher level than the second conveying roller 24, and the second conveying roller 24 is located below the discharge port 1112.

Specifically, the second conveying roller 24 is located directly below the discharge port 311. Understandably, the first conveying roller 23 is higher than the second conveying roller 24, and the muck discharged from the discharge hole 311 falls onto the conveying belt 21 and directly falls into the hopper of the muck truck after being conveyed to a high place by the conveying belt 21, so that efficient conveying of muck is realized, and the manual operation time and cost are reduced.

As shown in fig. 6 and 7, the support frame 22 includes a support plate 221 and a movable frame 222 which are disposed obliquely, the support plate 221 is connected to the frame 222, a first end of the support plate 221 is higher than a second end in a vertical direction, the first transfer roller 23 is disposed at the first end of the support plate 221, and the second transfer roller 24 is disposed at the second end of the support plate 221.

Further, as shown in fig. 6, the support plate 221 is provided with a lower dam plate 2211 at a second end. Specifically, the second transfer roller 24 is located at an upper side of the lower dam plate 2211, so that the slag is prevented from falling off from the second end of the support plate 221 by the lower dam plate 2211.

Further, as shown in fig. 7, the support plate 221 is provided with side dam plates 2212 on both sides in the width direction of the feed belt 21. The side baffle 2212 can block the dregs in the process of transporting the dregs, prevent the dregs from falling from the material conveying belt 21, and reduce the subsequent cleaning process.

The first and second transfer rollers 23 and 24 are rotatably mounted to the two side dam plates 2212.

As shown in fig. 6, a mounting shaft 2221 is provided at the lower portion of the frame 222, and rotating wheels 223 are mounted at both ends of the mounting shaft 2221.

Understandably, the provision of the frame 222 ensures stability and reliability of the entire muck transport mechanism. The runner 223 enables the muck transporting mechanism to have mobility, so that the muck transporting mechanism can be conveniently moved and adjusted in a construction site, and the flexibility and the convenience of operation are improved.

As shown in fig. 6 and 7, the muck transporting mechanism further includes a conveying driving assembly 25, the conveying driving assembly 25 is disposed on the supporting frame 22, and the conveying driving assembly 25 is used for driving the first conveying roller 23 to drive the conveying belt 21 to rotate.

Specifically, the feeding driving assembly 25 includes a feeding motor 251, the feeding motor 251 is drivingly connected to the first conveying roller 23, and the feeding motor 251 is disposed on the supporting frame 22. The first conveying roller 23 is driven to rotate by the conveying motor 251, and the conveying belt 21 is driven to rotate to convey the dregs.

Further, the feed drive assembly 25 further includes a third drive wheel 252, a second drive belt 253, and a fourth drive wheel 254. Wherein, the material conveying motor 251 is arranged on the supporting frame 22, the third driving wheel 252 is connected with the motor shaft of the material conveying motor 251, the fourth driving wheel 254 is connected with the first transmission roller 23, and the second driving belt 253 is wound on the third driving wheel 252 and the fourth driving wheel 254. The third driving wheel 252 is driven to rotate by the material conveying motor 251, the fourth driving wheel 254 is driven to rotate by the third driving wheel 252 through the second driving belt 253, the first conveying roller 23 is driven to rotate, and finally the material conveying belt 21 is driven to rotate to convey the dregs.

As shown in fig. 6, the muck transporting mechanism further comprises a second protective cover 26, and the second protective cover 26 is covered on a second driving belt 253, a third driving wheel 252 and a fourth driving wheel 254. By providing the second protective cover 26 to protect the second belt 253, the third drive wheel 252 and the fourth drive wheel 254, the risk of damage is reduced, the service life of the apparatus is prolonged and the maintenance costs are reduced.

To sum up, the rotation of the rotating shaft 321 is driven by the discharging motor 331, and then the conveying of the dregs in the collecting box 11 to the discharging barrel 31 is realized through the spiral blade 322 and the dregs are crushed through the crushing cutter 323, the conveying motor 251 drives the first conveying roller 23 to drive the conveying belt 21 to rotate for conveying the dregs, so that the automatic conveying of the dregs can be realized, and the clearing efficiency of the dregs can be improved.

It should be noted that in this document, relational terms such as "first" and "second" and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising one … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element.

The foregoing is merely a specific embodiment of the disclosure to enable one skilled in the art to understand or practice the disclosure. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the disclosure. Thus, the present disclosure is not intended to be limited to the embodiments shown and described herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (14)

1. A slag cleaning device, comprising:

a muck collecting mechanism (1) comprising a collecting box (11) and a muck guiding cylinder (12) for a drill rod to pass through, wherein the collecting box (11) is provided with an inner cavity (1111) capable of containing muck and a discharge hole (1112) communicated with the inner cavity (1111), the muck guiding cylinder (12) is positioned below the collecting box (11), and the muck guiding cylinder (12) is connected to the collecting box (11) and is communicated with the inner cavity (1111);

the muck conveying mechanism (2) comprises a conveying belt (21), and the conveying belt (21) is positioned below the discharge hole (1112);

a discharge mechanism (3) configured to discharge the dregs in the inner cavity (1111) through the discharge port (1112).

2. The slag clearing device as claimed in claim 1, wherein the discharging mechanism (3) comprises a discharging assembly (32), the discharging assembly (32) comprises a rotating shaft (321) and a helical blade (322) mounted on the rotating shaft (321), the rotating shaft (321) penetrates through the discharging hole (1112), and the helical blade (322) is located in the inner cavity (1111).

3. The slag cleaning and transporting device according to claim 2, characterized in that the discharging mechanism (3) comprises a discharging barrel (31), one axial end of the discharging barrel (31) is provided with an opening, the other axial end of the discharging barrel is closed, the discharging barrel (31) is connected with the collecting box (11), the opening of the discharging barrel (31) is communicated with the discharging hole (1112), and the barrel wall of the discharging barrel (31) is provided with a discharging hole (311).

4. A slag removal device as claimed in claim 3, characterised in that one end of the helical blade (322) in the axial direction of the shaft (321) extends into the discharge barrel (31).

5. A muck clearing arrangement according to claim 3, characterized in that the discharge drum (31) is provided with a muck guide plate (312) at the discharge opening (311), the muck guide plate (312) being arranged obliquely downwards in the vertical direction, the feed conveyor (21) being located below the muck guide plate (312).

6. A slag clearing apparatus as claimed in claim 3, wherein the discharge assembly (32) further comprises a crushing blade (323) for crushing the slag, the crushing blade (323) being disposed on the shaft (321) and within the discharge barrel (31).

7. The slag cleaning and transporting device according to claim 5, characterized in that the collecting box (11) is provided with two discharge ports (1112) on the same side, and each discharge port (1112) is correspondingly provided with one discharge mechanism (3).

8. A slag clearing arrangement as claimed in claim 3, characterized in that the discharge mechanism (3) further comprises a discharge drive assembly (33), the discharge drive assembly (33) being arranged on the discharge drum (31), the discharge drive assembly (33) being arranged to drive the rotation shaft (321) in rotation.

9. The slag clearing device as set forth in claim 8, wherein the discharge drive assembly (33) includes a discharge motor (331), the discharge motor (331) being drivingly connected to the shaft (321), the discharge motor (331) being disposed on the discharge barrel (31).

10. The slag clearing device according to claim 1, characterized in that the collection bin (11) comprises a bin (111) and a support leg (112) connected to the bin (111) and located below the bin (111), the length of the slag guiding drum (12) being less than or equal to the length of the support leg (112).

11. The muck clearing device according to claim 1, characterized in that the muck transporting mechanism (2) further comprises a supporting frame (22), a first transporting roller (23) and a second transporting roller (24) are arranged on the supporting frame (22), and the transporting belt (21) is wound around the first transporting roller (23) and the second transporting roller (24);

in the vertical direction, the first conveying roller (23) is higher than the second conveying roller (24), and the second conveying roller (24) is positioned below the discharge hole (1112).

12. The slag cleaning and transporting device according to claim 11, characterized in that the supporting frame (22) comprises a supporting plate (221) and a movable frame body (222) which are obliquely arranged, the supporting plate (221) is connected to the frame body (222), the first end of the supporting plate (221) is higher than the second end in the vertical direction, the first conveying roller (23) is arranged at the first end of the supporting plate (221), and the second conveying roller (24) is arranged at the second end of the supporting plate (221).

13. The slag clearing device as claimed in claim 12, characterized in that said support plate (221) is provided at a second end with a lower striker plate (2211);

and/or the supporting plate (221) is provided with side baffle plates (2212) on two sides of the width direction of the material conveying belt (21).

14. The slag cleaning and transporting device according to claim 11, characterized in that the slag transporting mechanism (2) further comprises a transporting and driving assembly (25), the transporting and driving assembly (25) comprises a transporting motor (251), the transporting motor (251) is in transmission connection with the first transporting roller (23), and the transporting motor (251) is arranged on the supporting frame (22).