CN219703761U - Discharging table of flame cutting machine - Google Patents

Abstract

The utility model discloses a blanking table of a flame cutting machine, which comprises a support, a slag collecting groove, a plurality of support plates, a first angle adjusting mechanism and a second angle adjusting mechanism, wherein the slag collecting groove is horizontally arranged on the support, one end of the slag collecting groove in the length direction is hinged with the support, and the upper surface of the slag collecting groove and one end of the slag collecting groove in the length direction are both provided with openings; each supporting plate is arranged in the slag collecting groove in parallel along the length direction perpendicular to the slag collecting groove at intervals in a rotating way, and each supporting plate is positioned on the same horizontal plane; the first angle adjusting mechanism is connected with each supporting plate. The beneficial effects of the utility model are as follows: the automatic cleaning of leftover materials and waste residues can be realized, the leftover materials are not required to be removed from the blanking table by means of manpower or travelling crane, the waste residues are not required to be cleaned by manpower, the automatic cleaning is very convenient, and the cost of manpower and material resources is reduced.

Description

Discharging table of flame cutting machine

Technical Field

The utility model relates to the technical field of auxiliary equipment of flame cutting machines, in particular to a blanking table of a flame cutting machine.

Background

The blanking table matched with the numerical control flame cutting machine is generally fixed and firm with the ground, the size of the blanking table is matched with parameters such as the span, the stroke and the height of the cutting machine, the work flow of the numerical control flame cutting machine is generally that a supporting plate is laid on the blanking table firstly by manpower, the cutting machine cuts the supporting plate according to a program after the supporting plate is placed, the cutting machine stops for waiting after the supporting plate is cut, an operator collects and sorts the cut supporting plate and leftover materials on the blanking table, and the supporting plate is placed on the blanking table again for cutting after the cleaning is finished. The separation of leftover bits and waste residue can be realized to current unloading platform (like the novel cutting machine unloading platform of application number 201220485049.7), but still need rely on the manual work or driving to remove the leftover bits from the unloading platform with the waste residue separation back to clean the waste residue through the manual work, this kind of mode is more troublesome, has also increased manpower and materials cost.

Disclosure of Invention

The utility model aims to overcome the defects of the prior art, and provides a blanking table of a flame cutting machine, which solves the technical problems that in the prior art, after leftover materials and waste residues are separated, the leftover materials still need to be removed from the blanking table by manpower or travelling crane, and the waste residues are cleaned by manpower, so that the method is troublesome, and the cost of manpower and material resources is increased.

In order to achieve the technical purpose, the technical scheme of the utility model provides a blanking table of a flame cutting machine, which comprises:

a support;

the slag collecting groove is horizontally arranged on the support, one end of the slag collecting groove in the length direction is hinged with the support, and the upper surface of the slag collecting groove and one end of the slag collecting groove in the length direction are both provided with openings;

the support plates are arranged in the slag collecting groove in parallel along the length direction perpendicular to the slag collecting groove at intervals in a rotating way, and are all positioned on the same horizontal plane;

the first angle adjusting mechanisms are connected with the supporting plates and used for driving the supporting plates to synchronously rotate so that the supporting plates are in a vertical state or a horizontal state, and when the supporting plates are in the horizontal state, the upper surfaces of the slag collecting grooves are in a sealing state;

the second angle adjusting mechanism is connected with the other end of the slag collecting groove and used for driving the slag collecting groove to rotate around one end so that an opening at one end of the slag collecting groove is at the lower end.

Further, the support comprises a bottom plate, two main beams and two supporting beams, wherein the two main beams are relatively fixed on the bottom plate along the length direction of the bottom plate, and the two supporting beams are perpendicular to the main beams, are arranged between the two main beams and are fixedly connected with the bottom plate and the main beams.

Further, the slag collecting groove is arranged between the two main beams, one end of the slag collecting groove in the length direction is hinged with the two main beams, and the other end of the slag collecting groove is arranged on the two supporting beams.

Further, the distance between the axes of adjacent support plates is equal to the width of one support plate.

Further, both side walls of the supporting plate in the width direction are arc-shaped structures.

Furthermore, a first cavity and a plurality of accommodating cavities which are communicated with the first cavity and are arranged on two opposite side walls of the slag collecting groove at intervals are respectively arranged along the length direction of the slag collecting groove, and the intervals between the adjacent accommodating cavities are equal.

Further, a second cavity is formed in the other side wall of the slag collecting groove.

Further, the first angle adjustment mechanism includes a plurality of pivots, a plurality of gears, a plurality of rack bars, two driving shafts, a transmission mechanism and a first rotation driving piece, each pivot is respectively along the length direction level of collection slag groove and interval rotation set up in two first cavitys, and each one end of pivot respectively with the one end fixed connection of corresponding backup pad, each pivot respectively with corresponding accept the chamber one-to-one, each gear is coaxial fixed in respectively on the pivot of correspondence, each rack bar slides respectively and sets up in corresponding accept the intracavity, the length of rack bar is less than accept the length in chamber, each rack bar respectively with corresponding gear engagement, set up first screw on the rack bar, two driving shafts respectively rotate and set up in corresponding two opposite lateral walls of collection slag groove to pass in proper order corresponding accept the chamber, two driving shafts's one end all stretches into in the second cavity respectively, each driving shaft is provided with each one and rotates in the corresponding one the drive shaft is located in the corresponding first thread of first thread, one the transmission mechanism is used for rotating with two corresponding one end of the first thread is connected to the first rotation driving piece is connected in the corresponding one rotation driving groove.

Further, the rotating shaft is coaxial with the axis of the supporting plate.

Further, the second angle adjustment mechanism comprises a sliding rod, a plurality of connecting rods, a screw rod and a second rotation driving piece, wherein the sliding rod is arranged on the bottom plate in a sliding mode, the sliding rod is located between two support beams and parallel to the support beams, a second screw hole is formed in the sliding rod, the connecting rods are arranged at intervals along the length direction of the sliding rod, one end of each connecting rod is hinged to the sliding rod, the other end of each connecting rod is hinged to the bottom of the slag collecting groove, the screw rod is perpendicular to the support beams, the two ends of the screw rod are rotationally connected to the support beams, the screw rod is in the second screw hole through corresponding screw threads, the second rotation driving piece is fixed on one support beam, and the output end of the second rotation driving piece is fixedly connected with the screw rod and used for driving the screw rod to rotate.

Compared with the prior art, the utility model has the beneficial effects that: when using flame cutting machine to cut the steel sheet, control first angle adjustment mechanism, make each backup pad synchronous rotation of first angle adjustment mechanism drive, so that each backup pad is in vertical state, will wait to cut the steel sheet and place on the cutting mesa that forms by each backup pad this moment, at this moment, the waste residue that flame cutting machine cutting steel sheet formed falls into album slag groove bottom along the clearance between the adjacent backup pad, the leftover bits then remain on the cutting mesa, realize the separation of leftover bits and waste residue, after cutting is accomplished, take out the steel sheet spare, the rethread is controlled first angle adjustment mechanism, make each backup pad synchronous rotation of first angle adjustment mechanism drive, so that each backup pad is in the horizontality, at this moment, the upper surface of album slag groove is in sealed state, avoid the leftover bits to fall into album slag groove bottom along the clearance between the adjacent backup pad in the in-process that removes along the cutting mesa, rethread is controlled second angle adjustment mechanism, make second angle adjustment mechanism drive album slag groove round one end rotate, so that the opening of album slag groove one end is in the low-end, the leftover bits on the cutting mesa and the automatic waste residue of leftover bits and album slag groove bottom along album slag groove one end's opening, and the material collecting bin, and the material of removing the leftover bits and the material need not be removed from the material carrier down, the manual material is realized, and the material is removed again, the manpower and the material is not needed to be cleaned down, the material is not to the manual material is removed again, and the material is convenient.

Drawings

FIG. 1 is a schematic perspective view of a blanking table of a flame cutting machine;

FIG. 2 is a cross-sectional view of a blanking table of the flame cutting machine of FIG. 2;

FIG. 3 is a schematic view of the blanking table of the flame cutting machine in FIG. 2 when the blanking table is in a state of removing scraps and waste residues;

FIG. 4 is a schematic perspective view of a blanking table of the flame cutting machine of FIG. 3 at another view angle;

fig. 5 is an enlarged view at a in fig. 4;

in the figure: 100-supporting seat, 110-bottom plate, 120-main beam, 130-supporting beam, 200-slag collecting groove, 210-first cavity, 220-containing cavity, 230-second cavity, 300-supporting plate, 400-first angle adjusting mechanism, 410-rotating shaft, 420-gear, 430-rack bar, 440-driving shaft, 450-transmission mechanism, 460-first rotating driving piece, 500-second angle adjusting mechanism, 510-sliding bar, 520-connecting bar, 530-screw rod and 540-second rotating driving piece.

Detailed Description

The present utility model will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present utility model more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the utility model.

The utility model provides a blanking table of a flame cutting machine, which has the structure shown in fig. 1-3 and comprises a support 100, a slag collecting groove 200, a plurality of support plates 300, a first angle adjusting mechanism 400 and a second angle adjusting mechanism 500, wherein the slag collecting groove 200 is horizontally arranged on the support 100, one end of the slag collecting groove 200 in the length direction is hinged with the support 100, and both the upper surface and one end of the slag collecting groove 200 in the length direction are arranged in an opening manner; each supporting plate 300 is arranged in the slag collecting tank 200 in parallel along the length direction perpendicular to the slag collecting tank 200 at intervals in a rotating way, and each supporting plate 300 is positioned on the same horizontal plane; the first angle adjusting mechanism 400 is connected to each supporting plate 300, and is configured to drive the supporting plates 300 to rotate synchronously, so that the supporting plates 300 are in a vertical state or a horizontal state, and when the supporting plates 300 are in the horizontal state, the upper surface of the slag collecting tank 200 is in a sealed state; the second angle adjusting mechanism 500 is connected to the other end of the slag collecting tank 200, and is used for driving the slag collecting tank 200 to rotate around one end, so that the opening of one end of the slag collecting tank 200 is at the lower end.

When the flame cutting machine is used for cutting the steel plate, the first angle adjusting mechanism 400 is controlled, the first angle adjusting mechanism 400 drives the supporting plates 300 to synchronously rotate, the supporting plates 300 are in a vertical state, at this time, the steel plate to be cut is placed on a cutting table surface formed by the supporting plates 300, at this time, waste residues formed by cutting the steel plate by the flame cutting machine fall into the bottom of the slag collecting tank 200 along a gap between the adjacent supporting plates 300, leftover materials are left on the cutting table surface, separation of the leftover materials and waste residues is realized, after cutting is completed, the steel plate is taken out, the first angle adjusting mechanism 400 is controlled by the rethread, the first angle adjusting mechanism 400 drives the supporting plates 300 to synchronously rotate, the supporting plates 300 are in a horizontal state, at this time, the upper surface of the slag collecting tank 200 is in a sealing state, the leftover materials are prevented from falling into the bottom of the slag collecting tank 200 along a gap between the adjacent supporting plates 300 in the process of moving along the cutting table surface, the second angle adjusting mechanism is controlled by the second angle adjusting mechanism, the second angle adjusting mechanism 500 is prevented from moving around the corner materials on the side of the slag collecting tank 200, and the waste residues are prevented from entering the end of the slag collecting tank 200, or the end of the slag collecting tank is not required to be cleaned by the manual waste residues, and the waste residues are not required to be cleaned, and the waste residues are removed from the end of the slag collecting tank 200.

As a preferred embodiment, referring to fig. 2, the support 100 includes a bottom plate 110, two main beams 120 and two supporting beams 130, the two main beams 120 are relatively fixed on the bottom plate 110 along the length direction of the bottom plate 110, the two supporting beams 130 are perpendicular to the main beams 120 and are disposed between the two main beams 120, and are fixedly connected with the bottom plate 110 and the main beams 120, so that the cutting machine can slide along the length direction of the two main beams 120, and when the slag collecting tank 200 is in a horizontal state, the other end of the slag collecting tank 200 can be lapped on the two supporting beams 130.

As a preferred embodiment, referring to fig. 2 and 3, the slag collecting groove 200 is disposed between the two main beams 120, one end of the slag collecting groove 200 in the length direction is hinged to the two main beams 120, and the other end of the slag collecting groove 200 is disposed on the two supporting beams 130 such that the slag collecting groove 200 can rotate around one end.

As a preferred embodiment, referring to fig. 2 and 3, the distance between the axes of adjacent support plates 300 is equal to the width of one support plate 300, so that when the support plates 300 are in a horizontal state, the upper surface of the slag collecting tank 200 is sealed, and the leftover materials are prevented from falling into the bottom of the slag collecting tank 200 along the gap between the adjacent support plates 300 in the process of moving along the cutting table.

As a preferred embodiment, referring to fig. 3, both side walls of the support plate 300 in the width direction are arc-shaped, so that the rotation between the adjacent support plates 300 is not interfered with each other.

As a preferred embodiment, referring to fig. 5, a first cavity 210 and a plurality of receiving cavities 220 which are all communicated with the first cavity 210 and are arranged at intervals are respectively arranged on two opposite side walls of the slag collecting tank 200 along the length direction of the slag collecting tank 200, and the distances between adjacent receiving cavities 220 are equal, so that each gear 420 can be rotatably arranged in the first cavity 210, and each toothed bar 430 can be slidably arranged in the corresponding receiving cavity 220.

As a preferred embodiment, referring to fig. 5, a second cavity 230 is formed on the other side wall of the slag collecting tank 200, so that the transmission mechanism 450 can be disposed in the second cavity 230.

As a preferred embodiment, please refer to fig. 2 and 5, the first angle adjusting mechanism 400 includes a plurality of rotating shafts 410, a plurality of gears 420, a plurality of toothed bars 430, two driving shafts 440, a transmission mechanism 450 and a first rotation driving member 460, each rotating shaft 410 is horizontally and rotatably disposed in two first cavities 210 along the length direction of the slag collecting groove 200 at intervals, one end of each rotating shaft 410 is fixedly connected with one end of the corresponding supporting plate 300, each rotating shaft 410 is respectively and correspondingly fixedly connected with one end of the corresponding receiving cavity 220, each gear 420 is respectively and coaxially fixed on the corresponding rotating shaft 410, each toothed bar 430 is respectively and slidably disposed in the corresponding receiving cavity 220, the length of each toothed bar 430 is smaller than the length of the receiving cavity 220, each toothed bar 430 is respectively meshed with the corresponding gear 420, a first screw hole is formed on the toothed bar 430, two driving shafts 440 are respectively rotatably disposed in the corresponding slag collecting groove 200, one end of each driving shaft is fixedly connected with the corresponding first end of the corresponding driving shaft 220, one end of each toothed bar 430 is rotatably disposed in the corresponding first cavity 230, one end of the corresponding driving shaft is rotatably connected with the corresponding driving shaft 230 via the corresponding screw thread, one end of the corresponding driving shaft 230 is rotatably disposed in the corresponding receiving cavity 230, the two end of the corresponding driving mechanism 440 is rotatably disposed in the corresponding hollow cavity 230, the corresponding screw threads are respectively, the two end of the first rotation driving mechanism is rotatably connected with the corresponding screw threads, and the corresponding screw threads are respectively, and the screw threads are respectively and rotatably connected, the output end of the first rotation driving member 460 is fixedly connected with one driving shaft 440, and is used for driving the driving shaft 440 to rotate, and by controlling the first rotation driving member 460, the first rotation driving member 460 drives the driving shaft 440 to rotate, so that each toothed bar 430 can be driven to move along the length direction of the slag collecting groove 200 in the corresponding accommodating cavity 220, and each gear 420 is driven to rotate, and the rotating shaft 410 is driven to rotate, so that each supporting plate 300 is driven to realize synchronous rotation.

As a preferred embodiment, referring to fig. 5, the rotation shaft 410 is coaxial with the axis of the support plate 300, so that the rotation shaft 410 can better support the support plate 300, and the problem that the support plate 300 is not stable enough when the rotation shaft 410 is disposed at two ends of the support plate 300 is in a vertical state or a horizontal state is avoided.

As a preferred embodiment, please refer to fig. 3 and 4, the second angle adjusting mechanism 500 includes a sliding rod 510, a plurality of connecting rods 520, a screw rod 530 and a second rotation driving member 540, the sliding rod 510 is slidably disposed on the bottom plate 110, the sliding rod 510 is disposed between the two supporting beams 130 and parallel to the supporting beams 130, the sliding rod 510 is provided with a second screw hole, each connecting rod 520 is disposed along the length direction of the sliding rod 510 at intervals, one end of each connecting rod 520 is hinged with the sliding rod 510, the other end of each connecting rod 520 is hinged with the bottom of the slag collecting trough 200, the screw rod 530 is perpendicular to the supporting beams 130 and is disposed between the two supporting beams 130, two ends of the screw rod 530 are rotationally connected to the supporting beams 130, the screw rod 530 is screwed into the second screw hole via corresponding threads, the second rotation driving member 540 is fixed on one supporting beam 130, the output end of the second rotation driving member 540 is fixedly connected with the screw rod 530, and the screw rod 530 is used for driving the screw rod 530 to rotate around the second end of the slag collecting trough 200, thereby driving the second rotation driving member 200 to rotate around the second end of the trough 200.

For better understanding of the present utility model, the following details of the working principle of the technical solution of the present utility model are described with reference to fig. 1 to 5:

when the flame cutting machine is used for cutting the steel plate, the first rotation driving piece 460 is controlled, so that the first rotation driving piece 460 drives the driving shaft 440 to rotate, thereby driving each toothed bar 430 to move along the length direction of the slag collecting groove 200 in the corresponding containing cavity 220, further driving each gear 420 to rotate, and driving the rotating shaft 410 to rotate, thereby driving each supporting plate 300 to realize synchronous rotation, so that each supporting plate 300 is in a vertical state, at this time, the steel plate to be cut is placed on a cutting table surface formed by each supporting plate 300, at this time, the waste slag formed by the cutting steel plate of the flame cutting machine falls into the bottom of the slag collecting groove 200 along a gap between adjacent supporting plates 300, the leftover materials are left on the cutting table surface, after the cutting is completed, the steel plate is taken out, the first rotation driving piece 460 is controlled, so that the first rotation driving piece 460 drives the driving shaft 440 to rotate, thereby driving each toothed bar 430 to rotate along the corresponding gear collecting groove 200, and driving the second rotation driving piece 300 to rotate along the corresponding rotating shaft 200, thereby realizing the second rotation of the rotating piece 300 along the length direction of the corresponding supporting plate 200, and the second rotation driving piece 300 falls into the horizontal state, thereby realizing the sealing groove 200 along the gap between the two adjacent rotating grooves, and the second rotation driving piece 300 is prevented from falling into the bottom of the groove 200, thereby drive slide bar 510 is along the length direction of album slag groove 200 removes, and drives through each connecting rod 520 album slag groove 200 rotates round one end, so that album slag groove 200 one end's opening is in the low side, and the leftover bits on the cutting mesa and the waste residue of album slag groove 200 bottom are convenient for follow album slag groove 200 one end's opening discharge, and get into in the different material receiving box, realize the automatic clearance of leftover bits and waste residue, no longer need rely on manual work or driving to remove the leftover bits from the unloading platform, also no longer need clean the waste residue through the manual work, and is very convenient, has reduced manpower and materials cost again.

The blanking table of the flame cutting machine has the following beneficial effects:

(1) The first rotation driving member 460 is controlled, so that the first rotation driving member 460 drives the driving shaft 440 to rotate, and thus each toothed bar 430 can be driven to move along the length direction of the slag collecting groove 200 in the corresponding accommodating cavity 220, and further each gear 420 is driven to rotate, and the rotating shaft 410 is driven to rotate, and thus each supporting plate 300 is driven to synchronously rotate, so that each supporting plate 300 is in a vertical state, at this time, a steel plate to be cut is placed on a cutting table surface formed by each supporting plate 300, at this time, waste slag formed by cutting the steel plate by a flame cutting machine falls into the bottom of the slag collecting groove 200 along a gap between adjacent supporting plates 300, and leftover materials are left on the cutting table surface, so that separation of the leftover materials and the waste slag is realized;

(2) After cutting, the steel plate is taken out, and the first rotation driving member 460 is controlled, so that the first rotation driving member 460 drives the driving shaft 440 to rotate, so that each toothed bar 430 can be driven to move along the length direction of the slag collecting groove 200 in the corresponding accommodating cavity 220, each gear 420 is driven to rotate, the rotating shaft 410 is driven to rotate, each supporting plate 300 is driven to synchronously rotate, each supporting plate 300 is in a horizontal state, at this time, the upper surface of the slag collecting groove 200 is in a sealing state, and the phenomenon that scraps fall into the bottom of the slag collecting groove 200 along gaps between adjacent supporting plates 300 in the process of moving along a cutting table surface is avoided;

(3) The automatic cleaning of leftover materials and waste residues is realized, the leftover materials are not required to be removed from the blanking table by means of manpower or travelling crane, the waste residues are not required to be cleaned by manpower, the automatic cleaning is very convenient, and the cost of manpower and material resources is reduced.

The above-described embodiments of the present utility model do not limit the scope of the present utility model. Any other corresponding changes and modifications made in accordance with the technical idea of the present utility model shall be included in the scope of the claims of the present utility model.

Claims (10)

1. A flame cutting machine blanking table, characterized by comprising:

a support;

the slag collecting groove is horizontally arranged on the support, one end of the slag collecting groove in the length direction is hinged with the support, and the upper surface of the slag collecting groove and one end of the slag collecting groove in the length direction are both provided with openings;

the support plates are arranged in the slag collecting groove in parallel along the length direction perpendicular to the slag collecting groove at intervals in a rotating way, and are all positioned on the same horizontal plane;

the first angle adjusting mechanisms are connected with the supporting plates and used for driving the supporting plates to synchronously rotate so that the supporting plates are in a vertical state or a horizontal state, and when the supporting plates are in the horizontal state, the upper surfaces of the slag collecting grooves are in a sealing state;

the second angle adjusting mechanism is connected with the other end of the slag collecting groove and used for driving the slag collecting groove to rotate around one end so that an opening at one end of the slag collecting groove is at the lower end.

2. The blanking table of the flame cutting machine of claim 1, wherein the support comprises a bottom plate, two main beams and two supporting beams, the two main beams are relatively fixed on the bottom plate along the length direction of the bottom plate, and the two supporting beams are perpendicular to the main beams, are arranged between the two main beams and are fixedly connected with the bottom plate and the main beams.

3. The blanking table of a flame cutting machine according to claim 2, wherein the slag collecting groove is arranged between the two main beams, one end of the slag collecting groove in the length direction is hinged with the two main beams, and the other end of the slag collecting groove is arranged on the two supporting beams.

4. A flame cutting machine blanking table as claimed in claim 3, wherein the spacing between adjacent support plate axes is equal to the width of one support plate.

5. The blanking table of a flame cutting machine of claim 4, wherein both side walls of the supporting plate in a width direction are arc-shaped structures.

6. The blanking table of the flame cutting machine of claim 5, wherein a first cavity and a plurality of containing cavities which are communicated with the first cavity and are arranged at intervals are respectively arranged on two opposite side walls of the slag collecting groove along the length direction of the slag collecting groove, and the intervals between the adjacent containing cavities are equal.

7. The blanking table of a flame cutting machine of claim 6, wherein a second cavity is formed in the other side wall of the slag collecting tank.

8. The blanking table of a flame cutting machine as set forth in claim 7, wherein the first angle adjusting mechanism includes a plurality of rotating shafts, a plurality of gears, a plurality of toothed bars, two driving shafts, a transmission mechanism and first rotating driving members, each rotating shaft is horizontally and rotatably disposed in two first cavities along a length direction of the slag collecting groove at intervals, one end of each rotating shaft is fixedly connected with one end of the corresponding supporting plate, each rotating shaft is respectively and one-to-one corresponding to the corresponding receiving cavity, each gear is respectively and coaxially fixed on the corresponding rotating shaft, each toothed bar is respectively and slidably disposed in the corresponding receiving cavity, a length of each toothed bar is smaller than a length of the receiving cavity, each toothed bar is respectively engaged with the corresponding gear, a first screw hole is formed in each toothed bar, two driving shafts are respectively rotatably disposed in two opposite side walls of the corresponding slag collecting groove and sequentially pass through the corresponding receiving cavity, two driving shafts are respectively and rotatably disposed in the corresponding first cavities, one end of each driving shaft is fixedly connected with the corresponding first rotating shaft through the corresponding first rotating driving shaft, one end of the corresponding driving shaft is rotatably disposed in the corresponding first rotating groove is fixedly connected with the corresponding first rotating driving member, one end of the first rotating driving member is rotatably disposed in the corresponding first rotating groove is rotatably connected with the corresponding first rotating driving member, one end is rotatably disposed in the corresponding threaded groove is fixedly connected with the corresponding first rotating member, for driving the drive shaft to rotate.

9. The flame cutting machine blanking table of claim 8, wherein said rotating shaft is coaxial with an axis of said support plate.

10. The blanking table of the flame cutting machine of claim 9, wherein the second angle adjusting mechanism includes a slide bar, a plurality of connecting rods, a screw rod and a second rotation driving member, the slide bar is slidably disposed on the bottom plate, the slide bar is disposed between two support beams and parallel to the support beams, a second screw hole is formed in the slide bar, each connecting rod is disposed along a length direction of the slide bar at intervals, one end of each connecting rod is hinged to the slide bar, the other end of each connecting rod is hinged to a bottom of the slag collecting groove, the screw rod is perpendicular to the support beams and is disposed between the two support beams, two ends of the screw rod are rotatably connected to the support beams, the screw rod is screwed in the second screw hole via corresponding threads, and the second rotation driving member is fixed on one support beam, and an output end of the second rotation driving member is fixedly connected with the screw rod and is used for driving the screw rod to rotate.