CN115849023A

CN115849023A - Automatic pile up neatly device of steel mesh

Info

Publication number: CN115849023A
Application number: CN202310175614.2A
Authority: CN
Inventors: 罗健熬; 卢增兵; 章夏荣; 方晓红; 朱旭波; 牟英
Original assignee: Hangzhou Huasheng Steel Mesh Co ltd
Current assignee: Hangzhou Huasheng Steel Mesh Co ltd
Priority date: 2023-02-28
Filing date: 2023-02-28
Publication date: 2023-03-28
Anticipated expiration: 2043-02-28
Also published as: CN115849023B

Abstract

The invention discloses an automatic steel mesh stacking device, which belongs to the technical field of transfer conveying equipment and comprises a base, wherein the top of the base is fixedly connected with a side plate, one side of the side plate is fixedly provided with a driving mechanism, and one side of the driving mechanism is in transmission connection with a turnover mechanism. According to the invention, the turning rod can be rotated to drive the outer turning rod to rotate, the rotating turning rod can be rotated out through the gap between the guide rollers and can be used for supporting and jacking the steel mesh in place, after the turning rod continues to rotate, the steel mesh can be supported by the guide roller on the other side, the steel mesh is guided backwards to the top of the stacking mechanism through the driving roller and the guide mechanism to be stacked, and the space for feeding adjacent steel meshes is divided through the matching of the rotating turning rod and the guide rollers, so that the steel mesh is only contacted during blanking, the separation interference between the protruding ribs of the steel mesh is reduced through turnover type feeding, the stability of stacking feeding is improved, the interference between the feeding materials of the adjacent steel meshes is reduced, and the efficiency of stacking feeding is improved.

Description

Automatic pile up neatly device of steel mesh

Technical Field

The invention belongs to the technical field of transfer conveying equipment, and particularly relates to an automatic steel mesh stacking device.

Background

The reinforcing mesh generally refers to a ribbed reinforcing mesh, which is also called welded reinforcing mesh, reinforcing mesh and the like, and is a mesh in which longitudinal reinforcing bars and transverse reinforcing bars are arranged at certain intervals, are perpendicular to each other, and are welded at all cross points.

Chinese patent application CN113353645A discloses a steel mesh stacking device and a stacking method, and relates to the technical field of auxiliary machinery for steel mesh production. The device comprises a frame structure, a Z-axis moving mechanism, an X-axis moving mechanism, a grabbing mechanism and a PLC control mechanism; the frame structure is a cuboid structure, and a grabbing position and a stacking position are arranged along the length direction of the frame structure; the X-axis moving mechanism is arranged at the top of the frame structure and is vertically connected with two parallel long edges of the frame structure; the Z-axis moving mechanism is arranged on the X-axis moving mechanism and can do lifting motion relative to the X-axis moving mechanism; the grabbing mechanism is connected to the bottom of the Z-axis moving mechanism and can move along with the Z-axis moving mechanism; the PLC control mechanism is electrically connected with the X-axis moving mechanism, the Z-axis moving mechanism and the grabbing mechanism. The device and the method of the scheme have the advantages that automatic mechanical stacking and transferring of the reinforcing mesh are realized, and certain problems still exist in the practical use process: if the steel bar is easy to be combined by double-layer steel bar ribs during welding to generate more protruding parts, the protruding parts between a plurality of steel nets are easy to interfere with each other during stacking and feeding, so that the stacking position is easy to deviate due to the hooking during stacking, and an improved space exists.

Disclosure of Invention

The invention aims to: the automatic stacking device for the steel meshes aims to solve the problems that when steel bars are welded, the combination of double-layer steel bar ribs easily generates more protruding parts, when the steel bars are stacked and fed, protruding parts between a plurality of steel meshes are interfered with each other, hooking is easy to occur, and stacking positions are prone to deviation due to hooking and connecting when stacking is conducted, and the automatic stacking device for the steel meshes is provided.

In order to achieve the purpose, the invention adopts the following technical scheme:

a steel mesh automatic stacking device comprises a base, wherein a side plate is fixedly connected to the top of the base, a driving mechanism is fixedly mounted on one side of the side plate, a turnover mechanism is connected to one side of the driving mechanism in a transmission manner, the turnover mechanism is located on the other side of the side plate, a dust removal box is sleeved on the outer side wall of the turnover mechanism and is fixedly mounted on one side of the side plate, a purging nozzle and a knocking roller are fixedly mounted on one side of an inner cavity of the dust removal box, through grooves are formed in two sides of the dust removal box, guide mechanisms are respectively and rotatably connected in the through grooves in the two sides and used for guiding a steel mesh to be turned and conveyed, a guide mechanism is fixedly mounted on the top of one side of the top of the base and located on one side of the guide mechanism, a stacking mechanism is fixedly mounted at the tail end of the top of the base and used for bearing the steel mesh guiding the top of the dust removal box, and an adjusting mechanism is fixedly mounted between the bottom of the dust removal box and the discharge side guide mechanism;

tilting mechanism includes the bull stick, the bull stick rotates to be connected in curb plate one side, the bull stick lateral wall is connected with a plurality of turnover poles along the axle center equidistance, and is equipped with the clearance between a plurality of turnover poles, guide mechanism is including rotating the guide frame of connecting at dust removal case logical inslot chamber, the guide frame is close to a plurality of guide rollers of one side fixedly connected with of dust removal case inner chamber, and is equipped with the clearance between a plurality of guide rollers for through a plurality of pivoted turnover poles pass between the guide roller of one side and turn steel mesh blanking to opposite side guide roller top.

As a further description of the above technical solution:

the equal fixedly connected with a plurality of control levers in turnover pole lateral wall both sides, and the clearance of adjacent control lever is greater than the steel mesh clearance.

As a further description of the above technical solution:

guide frame inner chamber both sides all are connected with a plurality of drive rollers through bearing and pivot rotation, and the drive roller is electric power driving spare, and the diameter that is located dust removal case outside drive roller is greater than the diameter that is located the inboard drive roller of dust removal case for reduce steel mesh pan feeding contact friction.

As a further description of the above technical solution:

the guide frame both sides all fixedly connected with supporting shoe, the supporting shoe top is connected with a plurality of side rollers through bearing and pivot rotation, and curb plate roller outside diameter and drive roller border position water line intersect perpendicularly.

As a further description of the above technical solution:

guide frame top fixed mounting has the deflector, deflector cross sectional shape is triangle-shaped, and deflector inclined plane landing side is inboard towards dust removal case logical groove, and is located guide frame one side fixed mounting of ejection of compact side and has the regulating roller, and the regulating roller is located between deflector and the guide roller.

As a further description of the above technical solution:

some cell bodies are seted up at the guide roller top, and the cell body inner chamber rotates and is connected with a plurality of guide wheels for reduce steel mesh contact friction.

As a further description of the above technical solution:

adjustment mechanism includes telescopic cylinder, telescopic cylinder bottom rotates and is connected with the fixing base, fixing base fixed connection is in dust removal bottom of the case portion, telescopic cylinder other end fixed mounting has the axis of rotation, and axis of rotation top fixed connection is in guide frame bottom for the ejection of compact orientation angle of guide frame is adjusted through telescopic cylinder's extension.

As a further description of the above technical solution:

the stacking mechanism comprises a frame, a lift main body is fixedly mounted at the bottom of the frame inner cavity, a lifting frame is detachably mounted at the top of the lift main body and is connected to the frame inner cavity in a sliding mode, and the width and the length of the lifting frame are equal to those of the frame inner cavity.

As a further description of the above technical solution:

guiding mechanism includes the guide frame, guide frame fixed connection is in base one side, guide frame inner chamber both sides all inlay and are equipped with two sharp modules, sharp module inner chamber sliding connection has the lead screw seat, and fixedly connected with guide roll between two adjacent lead screw seats, and the guide roll is electric drive spare, and the guide roll surface encircles and is connected with a plurality of friction discs.

As a further description of the above technical solution:

dust removal bottom of the case portion intercommunication has the sweeps case, and sweeps case one side fixed mounting has the suction pump body, and sweeps bottom of the case portion has the awl stopper through buckle limit connection, dust removal case one side fixedly connected with apron, and apron one side has seted up the observation window.

In summary, due to the adoption of the technical scheme, the invention has the beneficial effects that:

1. according to the invention, the turning rod can be rotated to drive the outer turning rod to rotate, the rotating turning rod can be rotated out through a gap between the guide rollers and can be used for supporting and jacking the steel mesh in place, the steel mesh can be contacted with the knocking roller in the inner cavity of the dust removal box to knock off surface welding slag under the condition of being turned, and the steel mesh falls into the bottom scrap box under the flushing action of high-pressure air sprayed by the purging nozzle, and after the turning rod continues to rotate, the steel mesh can be supported by the guide roller on the other side and is guided backwards to the top of the stacking mechanism through the driving roller and the guide mechanism to be stacked, and the space for feeding adjacent steel meshes is divided through the matching of the rotating turning rod and the guide roller, so that the steel mesh can be contacted only during blanking, the blocking interference among protruding ribs of the steel mesh can be reduced through turning feeding, the stability of feeding stacking is improved, the interference among feeding materials of the adjacent steel meshes is reduced, and the stacking feeding efficiency is improved.

2. According to the steel mesh feeding device, through the designed guide frame, the plurality of driving rollers can effectively drive the steel mesh when rotating, the vertically overlapped steel mesh can be prevented from interfering with the driving rollers with smaller diameters when being guided by the adjacent staggered driving rollers, the steel mesh with improved guide transmission stability can be contacted with the surface of the side roller, the side roller can guide the trend of the steel mesh through contact, the steel mesh can be prevented from shaking and deviating, the plurality of guide wheels on the surface of the guide roller can be matched with the gravity of the blanking orientation of the guide roller through the rotation of the guide wheels after the steel mesh fully enters, so that the steel mesh can slide into the top of the rear side-turning rod, the stability of the blanking of the steel mesh is improved, and the steel mesh is prevented from staying on the surface of the guide roller.

3. According to the invention, through the designed adjusting mechanism, the telescopic cylinder is used for working and extending to drive the guide frame to rotate around the hinged position in the dust removal box, the steel mesh can be guided to enter the rear side guide frame during blanking under the condition that the guide frame rotates, the discharging position can be quickly adjusted, the guide frame can be lifted through the linear modules on the two sides, through adjustment of the discharging height of the guide frame, the lifting guide frame is matched, the adjustment control of the stacking height can be realized, the condition that the subsequent carrying is influenced due to the overhigh stacking height is avoided, the steel mesh subjected to blanking is stacked layer by layer through descending of the elevator main body, and the stacking blanking can be carried out through separating the lifting frame from the elevator main body after stacking, so that the stacking efficiency is improved.

Drawings

Fig. 1 is a schematic overall structure diagram of an automatic steel mesh stacking device according to the present invention;

FIG. 2 is a schematic side-view of the automatic steel mesh stacking apparatus according to the present invention;

FIG. 3 is a schematic view of an exploded structure of an automatic steel mesh stacking apparatus according to the present invention;

FIG. 4 is a schematic view of an assembly structure of a guide mechanism of an automatic steel mesh stacking apparatus according to the present invention;

FIG. 5 is a schematic side view of an automatic steel mesh stacking apparatus according to the present invention;

fig. 6 is a schematic diagram of a transverse structure of an automatic steel mesh stacking device according to the present invention;

FIG. 7 is a schematic structural view of a guide mechanism of an automatic steel mesh stacking apparatus according to the present invention;

fig. 8 is a schematic structural view of a dust removing box of the automatic steel mesh stacking device provided by the invention.

Illustration of the drawings:

1. a base; 2. a stacking mechanism; 201. a frame; 202. a lifting frame; 203. an elevator main body; 3. a guide mechanism; 301. a guide frame; 302. a linear module; 303. a screw rod seat; 304. a guide roller; 4. a dust removal box; 5. a guide mechanism; 501. a guide frame; 502. a support block; 503. side rollers; 504. a drive roller; 505. a guide plate; 506. a guide roller; 507. a guide wheel; 508. a regulating roller; 6. a scrap box; 7. an adjustment mechanism; 701. a fixed seat; 702. a telescopic cylinder; 703. a rotating shaft; 8. a turnover mechanism; 801. a rotating rod; 802. turning over a rod; 803. a control lever; 9. a purge nozzle; 10. knocking rollers; 11. a cover plate; 12. a drive mechanism.

Detailed description of the preferred embodiments

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-3, the present invention provides a technical solution: an automatic steel mesh stacking device comprises a base 1, a side plate is fixedly connected to the top of the base 1, a driving mechanism 12 is fixedly mounted on one side of the side plate, a turnover mechanism 8 is connected to one side of the driving mechanism 12 in a transmission mode, the turnover mechanism 8 is located on the other side of the side plate, a dust removing box 4 is sleeved on the outer side wall of the turnover mechanism 8, the dust removing box 4 is fixedly mounted on one side of the side plate, a purging nozzle 9 and a knocking roller 10 are fixedly mounted on one side of an inner cavity of the dust removing box 4, through grooves are formed in two sides of the dust removing box 4, guide mechanisms 5 are respectively and rotatably connected in the through grooves in the two sides and used for guiding a steel mesh to be turned and conveyed, a guide mechanism 3 is fixedly mounted on the top of one side of the top of the base 1, the guide mechanism 3 is located on one side of the guide mechanism 5, a stacking mechanism 2 is fixedly mounted at the tail end of the top of the base 1 and used for bearing the steel mesh guiding the top, and an adjusting mechanism 7 is fixedly mounted between the bottom of the dust removing box 4 and the discharge side guide mechanism 5;

tilting mechanism 8 includes bull stick 801, bull stick 801 rotates to be connected in curb plate one side, bull stick 801 lateral wall is connected with a plurality of turnover poles 802 along axle center equidistance, and be equipped with the clearance between a plurality of turnover poles 802, guiding mechanism 5 is including rotating the guide frame 501 of connecting at dust removal case 4 logical groove inner chamber, guide frame 501 is close to a plurality of guide rollers 506 of one side fixedly connected with of dust removal case 4 inner chamber, and be equipped with the clearance between a plurality of guide rollers 506, be used for passing the steel mesh blanking that turns to opposite side guide roller 506 top between the guide roller 506 from one side through a plurality of pivoted turnover poles 802, the equal fixedly connected with a plurality of control levers 803 in turnover pole 802 lateral wall both sides, and the clearance of adjacent control lever 803 is greater than steel mesh clearance, dust removal case 4 bottom intercommunication has sweeps case 6, and 6 one side fixed mounting has the suction pump body, and sweeps case 6 passes through the spacing awl stopper that is connected with of buckle in bottom side, case 4 one side fixedly connected with apron 11, and the observation window has been seted up to dust removal apron 11 one side.

The implementation mode is specifically as follows: when the steel mesh is stacked, the steel mesh can be placed into the guide frame 501 on the front side of the dust removal box 4 through the feeding mechanism, the steel mesh can move to the top of the guide roller 506 to the front side under the rotation action of the drive roller 504, and after moving to the top of the guide roller 506, the turnover mechanism 8 can rotate through the output shaft of the motor of the rear side drive mechanism 12 to drive the rotating rod 801 to rotate, the rotating rod 801 rotates to drive the outer turnover rod 802 to rotate, the rotating turnover rod 802 can rotate out through the gap between the guide rollers 506 and bear the steel mesh jacked in place, the steel mesh can knock off surface welding slag after contacting with the knocking roller 10 in the inner cavity of the dust removal box 4 under the condition of being turned, and the steel mesh can fall into the bottom scrap box 6 under the flushing action of high-pressure air sprayed by the blowing nozzle 9, and can be borne by the guide roller 506 on the other side after the turnover rod 802 continues rotating, and guide backward to stacker 2 top through drive roller 504 and guiding mechanism 3 and carry out the pile up neatly and pile up neatly, thereby can cut apart the space when adjacent steel mesh pay-off through the cooperation of rotatory turnover pole 802 and guide roller 506, make it contact only when the blanking, be favorable to reducing the separation interference between the outstanding rib of steel mesh through convertible pay-off, improve the stability of pile up neatly pay-off, reduce the interference between the adjacent steel mesh pan feeding, improve pile up neatly pay-off efficiency, can strike the in-process through accepting of steel mesh and turnover pole 802 simultaneously, strike the clearance to the remaining welding slag of steel mesh welding, be favorable to reducing the welding slag behind the steel mesh pile up neatly and remain, the welding slag can fall into bottom sweeps case 6 in the effect of scraping of gravity and turnover pole 802 simultaneously, make things convenient for follow-up to clear up and maintain.

Referring to fig. 2-6, two sides of an inner cavity of the guide frame 501 are rotatably connected with a plurality of driving rollers 504 through bearings and rotating shafts, the driving rollers 504 are electrically driven, the diameter of the driving roller 504 positioned outside the dust removal box 4 is larger than that of the driving roller 504 positioned inside the dust removal box 4, and are used for reducing the contact friction force of a steel mesh feeding material, two sides of the guide frame 501 are fixedly connected with supporting blocks 502, the top of each supporting block 502 is rotatably connected with a plurality of side rollers 503 through bearings and rotating shafts, the outermost side diameter of each side roller is perpendicular to the horizontal line of the edge position of the driving roller 504, a guide plate 505 is fixedly installed at the top of the guide frame 501, the cross section of the guide plate 505 is triangular, the inclined plane sliding side of the guide plate 505 faces the inner side of the through groove of the dust removal box 4, an adjusting roller 508 is fixedly installed at one side of the guide frame 501 positioned at a discharging side, the adjusting roller 508 is positioned between the guide plate 505 and the guiding roller 506, a groove body is formed at the top of the guide roller 506, and a plurality of guide wheels 507 are rotatably connected to the inner cavity of the groove body for reducing the contact friction force of the steel mesh.

The implementation mode is specifically as follows: through the guide frame 501 of design, a plurality of drive rollers 504 can effectively be with the steel mesh transmission when rotating, and, the drive roller 504 that is located the border position can improve the stability of steel mesh pan feeding under the great condition of diameter, and can make vertical superimposed steel mesh avoid taking place to interfere with the less drive roller 504 of diameter when the guide through adjacent crisscross drive roller 504, improve guide transmission stability, simultaneously, the steel mesh is when getting into guide frame 301, the steel mesh can contact with side roller 503 surface, side roller 503 can pass through the contact guide steel mesh trend, avoid the steel mesh to take place to rock the skew, it is further, through the guide roller 506 of design, a plurality of guide wheels 507 on guide roller 506 surface can fully get into the back at the steel mesh, through the rotation of guide wheel 507 and the gravity cooperation of guide roller 506 blanking orientation, make the steel mesh can slide into the back and turn on one's side 802 top, thereby can effectively improve the stability of steel mesh blanking, avoid the steel mesh to stop on the guide roller 506 surface, simultaneously, through the deflector 505 of design, triangular deflector 505 can make the steel mesh blanking can pass through the top inclined plane and make the steel mesh can fast blanking, improve blanking handle stability.

Referring to fig. 6-8, the adjusting mechanism 7 includes a telescopic cylinder 702, the bottom end of the telescopic cylinder 702 is rotatably connected with a fixing base 701, the fixing base 701 is fixedly connected to the bottom of the dust removing box 4, the other end of the telescopic cylinder 702 is fixedly installed with a rotating shaft 703, and the top of the rotating shaft 703 is fixedly connected to the bottom of the guide frame 501, and is used for adjusting the discharging direction angle of the guide frame 501 through the extension of the telescopic cylinder 702, the guide mechanism 3 includes a guide frame 301, the guide frame 301 is fixedly connected to one side of the base 1, two linear modules 302 are embedded on two sides of the inner cavity of the guide frame 301, the inner cavity of the linear modules 302 is slidably connected with the screw rod bases 303, and a guide roller 304 is fixedly connected between two adjacent screw rod bases 303, and the guide roller 304 is an electric driving member, and the surface of the guide roller 304 is surrounded and connected with a plurality of friction plates, the stacking crane mechanism 2 includes a frame 201, the inner cavity bottom of the frame 201 is fixedly installed with a crane main body 203, the crane 202 is detachably installed on the top 203 of the elevator main body, and is slidably connected to the inner cavity of the frame 201, and the crane 202 is slidably connected to the inner cavity of the frame 201, the width and the adjusting mechanism 7 is designed.

The implementation mode is specifically as follows: through the adjustment mechanism 7 of design, when the steel mesh ejection of compact, can drive guide frame 501 through telescopic cylinder 702 working extension and rotate around articulated position at dust removal case 4, can guide the steel mesh to get into in rear side guide frame 301 when the blanking under the guide frame 501 pivoted condition, thereby can quick adjustment ejection of compact position, and guide frame 301 can go up and down through both sides straight line module 302, through the regulation to guide frame 501 ejection of compact height, cooperate the guide frame 301 of liftable, can realize the regulation control to the pile up neatly height, avoid the pile up neatly height too high to influence follow-up transport, and through the guide roll 304 of design, when the steel mesh passes through drive roller 504 pay-off in guide frame 501, guide roll 304 can improve the frictional force with the contact of steel mesh bottom through the friction disc of external connection, guarantee the conduction transport effect, and through the pile up mechanism 2 of design, can pass through the decline of lift main part 203, pile up neatly to the steel mesh of blanking step by step, and can carry out the pile up neatly through twitching 202 and lift main part 203 separation to carry out the blanking after piling up.

The working principle is as follows: during use, when steel meshes are stacked, the steel meshes are placed into the guide frame 501 on the front side of the dust removal box 4 through the feeding mechanism, the steel meshes can move to the top of the guide roller 506 to the front side under the rotating action of the drive roller 504, the turnover mechanism 8 can rotate through the motor output shaft of the rear-side drive mechanism 12 to drive the rotating rod 801 to rotate, the rotating rod 801 rotates to drive the outer turnover rod 802 to rotate, the rotating turnover rod 802 can rotate out through the gap between the guide rollers 506 and bear and lift up the steel meshes in place, the steel meshes can knock off surface welding slag after contacting with the inner cavity roller 10 of the dust removal box 4 under the condition of turnover, the steel meshes fall into the bottom scrap box 6 under the flushing action of high-pressure air sprayed by the blowing nozzle 9, after the turnover rod 802 continues to rotate, the steel meshes can be borne by the guide roller 506 on the other side and are guided backwards to the top of the stacking mechanism 2 through the drive roller 504 and the guide mechanism 3 to be stacked, and through the matching of the rotating turnover rod 802 and the guide rollers 506, the space between the adjacent steel meshes is divided, so that the steel meshes are only contacted during blanking.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims

1. The automatic steel mesh stacking device comprises a base (1), wherein a side plate is fixedly connected to the top of the base (1), and is characterized in that a driving mechanism (12) is fixedly mounted on one side of the side plate, a turnover mechanism (8) is connected to one side of the driving mechanism (12) in a transmission manner, the turnover mechanism (8) is located on the other side of the side plate, a dust removal box (4) is sleeved on the outer side wall of the turnover mechanism (8), the dust removal box (4) is fixedly mounted on one side of the side plate, a blowing nozzle (9) and a knocking roller (10) are fixedly mounted on one side of the inner cavity of the dust removal box (4), through grooves are formed in both sides of the dust removal box (4), guide mechanisms (5) are respectively and rotatably connected in the through grooves in both sides, and used for guiding steel meshes to be turned and conveyed, a guide mechanism (3) is fixedly mounted on the top of one side of the top of the base (1), a stacking mechanism (2) is fixedly mounted at the tail end of the top of the base (1) and used for receiving the steel meshes for guiding the top, and an adjusting mechanism (7) is fixedly mounted between the bottom of the dust removal box (4) and the discharge side guide mechanism (5);

tilting mechanism (8) are including bull stick (801), bull stick (801) rotate to be connected in curb plate one side, bull stick (801) lateral wall is connected with a plurality of turnover poles (802) along the axle center equidistance, and is equipped with the clearance between a plurality of turnover poles (802), guide mechanism (5) are including rotating guide frame (501) of connecting at dust removal case (4) logical inslot chamber, one side fixedly connected with a plurality of guide rollers (506) that guide frame (501) are close to dust removal case (4) inner chamber, and are equipped with the clearance between a plurality of guide rollers (506) for through a plurality of pivoted turnover poles (802) pass the steel mesh blanking to opposite side guide roller (506) top between guide roller (506) from one side.

2. An automatic steel mesh stacking device as claimed in claim 1, wherein a plurality of control rods (803) are fixedly connected to both sides of the outer side wall of the turning rod (802), and the gap between adjacent control rods (803) is larger than the mesh gap of the steel mesh.

3. The automatic steel mesh palletizing device according to claim 1, wherein a plurality of driving rollers (504) are rotatably connected to both sides of an inner cavity of the guide frame (501) through bearings and rotating shafts, the driving rollers (504) are electric driving members, and the diameters of the driving rollers (504) positioned outside the dust removal box (4) are larger than the diameters of the driving rollers (504) positioned inside the dust removal box (4) so as to reduce the contact friction force of steel mesh feeding.

4. A steel mesh automatic stacking device according to claim 1, wherein both sides of the guide frame (501) are fixedly connected with supporting blocks (502), the top of the supporting blocks (502) is rotatably connected with a plurality of side rollers (503) through bearings and rotating shafts, and the outermost diameters of the side rollers are vertically crossed with the horizontal line of the edge position of the driving roller (504).

5. A steel mesh automatic stacking device according to claim 1, wherein a guide plate (505) is fixedly installed on the top of the guide frame (501), the cross section of the guide plate (505) is triangular, the inclined surface of the guide plate (505) slides to the inner side of the through groove of the dust removing box (4), an adjusting roller (508) is fixedly installed on one side of the guide frame (501) on the discharging side, and the adjusting roller (508) is located between the guide plate (505) and the guide roller (506).

6. The automatic steel mesh stacking device as claimed in claim 1, wherein a groove is formed at the top of the guide roller (506), and a plurality of guide wheels (507) are rotatably connected to an inner cavity of the groove for reducing the contact friction force of steel meshes.

7. A steel mesh automatic stacking device according to claim 1, wherein the adjusting mechanism (7) comprises a telescopic cylinder (702), a fixed seat (701) is rotatably connected to the bottom end of the telescopic cylinder (702), the fixed seat (701) is fixedly connected to the bottom of the dust removing box (4), a rotating shaft (703) is fixedly mounted at the other end of the telescopic cylinder (702), and the top of the rotating shaft (703) is fixedly connected to the bottom of the guiding frame (501) for adjusting the discharging orientation angle of the guiding frame (501) through the extension of the telescopic cylinder (702).

8. The automatic steel mesh stacking device according to claim 1, wherein the stacking mechanism (2) comprises a frame (201), an elevator main body (203) is fixedly installed at the bottom of an inner cavity of the frame (201), a lifting frame (202) is detachably installed at the top of the elevator main body (203), the lifting frame (202) is slidably connected to the inner cavity of the frame (201), and the width and the length of the lifting frame (202) are equal to those of the inner cavity of the frame (201).

9. A steel mesh automatic stacking device according to claim 1, wherein the guide mechanism (3) comprises a guide frame (301), the guide frame (301) is fixedly connected to one side of the base (1), two linear modules (302) are embedded on two sides of an inner cavity of the guide frame (301), a screw rod seat (303) is slidably connected to an inner cavity of each linear module (302), a guide roller (304) is fixedly connected between every two adjacent screw rod seats (303), the guide roller (304) is an electric driving member, and a plurality of friction plates are circumferentially connected to the surface of the guide roller (304).

10. The automatic steel mesh stacking device as claimed in claim 1, wherein the bottom of the dust removing box (4) is communicated with a waste box (6), a suction pump body is fixedly mounted on one side of the waste box (6), a conical plug is connected to the bottom side of the waste box (6) in a limiting manner through a buckle, a cover plate (11) is fixedly connected to one side of the dust removing box (4), and an observation window is arranged on one side of the cover plate (11).