CN117923067B

CN117923067B - Belt conveyor deviation correcting device for tire type stacking machine

Info

Publication number: CN117923067B
Application number: CN202410246533.1A
Authority: CN
Inventors: 曹方良; 宿鹏; 郝健; 李正华; 刘金旭; 陈之坤
Original assignee: Shandong Port Bohai Bay Port Group Co ltd
Current assignee: Shandong Port Bohai Bay Port Group Co ltd
Priority date: 2024-03-05
Filing date: 2024-03-05
Publication date: 2024-06-18
Anticipated expiration: 2044-03-05
Also published as: CN117923067A

Abstract

The invention relates to a deviation correcting device of a belt conveyor for a tire type stacking machine, which aims to solve the technical problem that the working efficiency of the matching of the conventional belt conveyor and the tire type stacking machine is low.

Description

Belt conveyor deviation correcting device for tire type stacking machine

Technical Field

The invention relates to the technical field of deviation correcting devices, in particular to a deviation correcting device of a belt conveyor for a tire type stacking machine.

Background

The belt conveyor is also called as a belt conveyor, and is widely applied to various industries such as household appliances, electronics, electrical appliances, machinery, tobacco, injection molding, post and telecommunications, printing, food and the like, and the assembly, detection, debugging, packaging, transportation and the like of articles. The belt conveyor can be classified into heavy belt conveyors such as mining belt conveyors and light belt conveyors such as those used in the industries of electronic plastics, food light industry, chemical medicine and the like according to the conveying capacity thereof. The belt conveyor has the advantages of strong conveying capacity, long conveying distance, simple structure, easy maintenance and convenient programmed control and automatic operation.

When the belt device of the belt conveyor works, the belt device is long in conveying distance and is subjected to frequent impact caused by loading of materials, so that the belt is often deviated in the conveying process, and when the belt device is serious, the belt conveyor is stopped in a fault manner, the main parts of the belt conveyor are damaged, potential safety hazards are formed, and the quality of conveyed materials is influenced; the stacking machine has the advantages of simple structure, flexible control, good micro-motion performance and high explosion-proof safety performance, is suitable for operation in narrow channels and limited spaces, and is ideal equipment for loading and unloading trays in overhead warehouses and workshops; the belt is deviated in the conveying process, so that the stacker cannot accurately load and unload cargoes, the stacker is inconvenient in loading and unloading cargoes on the belt conveyor, the cargoes are required to be manually conveyed from the belt conveyor and then stacked by the stacker, and the working efficiency is low; therefore, how to design a belt conveyor deviation correcting device with a transfer function is important; in view of the above, we propose a belt conveyor deviation correcting device for a tire type stacker.

Disclosure of Invention

The invention aims to overcome the defects of the prior art, adapt to the actual needs, and provide a deviation correcting device for a belt conveyor for a tire type stacking machine, so as to solve the technical problem that the working efficiency of the cooperation of the conventional belt conveyor and the tire type stacking machine is low.

In order to achieve the purpose of the invention, the technical scheme adopted by the invention is as follows: the belt conveyor deviation correcting device for the tire type stacking machine comprises a conveyor, wherein a transmission belt group is arranged on the conveyor, a limiting mechanism is arranged on the conveyor relative to the top end of the transmission belt group, a deviation correcting mechanism is arranged on the conveyor relative to the bottom end of the transmission belt group, an overhead frame is arranged at the output end of the conveyor, and a transfer mechanism is arranged on the back of the overhead frame; the transmission belt group comprises a rotating shaft, transmission blocks and narrow V belts, wherein the rotating shaft is connected to the conveyor, the transmission blocks are connected to the rotating shaft, the narrow V belts are connected to the transmission blocks, the limiting mechanism is arranged at the position, opposite to the top end of the narrow V belts, on the conveyor, and the deviation correcting mechanism is arranged at the position, opposite to the bottom end of the narrow V belts, on the conveyor.

Preferably, stop gear includes the mounting bracket, adjusts axostylus axostyle, locking knob and limiting plate, a plurality of the mounting bracket connect in the conveyer both sides, adjust the axostylus axostyle activity and insert and locate on the mounting bracket, locking knob threaded connection in on the mounting bracket relatively adjust the position on axostylus axostyle top, the limiting plate symmetry is located a plurality of on the regulation axostylus axostyle.

Preferably, the deviation rectifying mechanism comprises a mounting plate, a servo motor, a connecting shaft and a deviation rectifying module, wherein the mounting plate is arranged on two sides of the conveyor, the servo motor is connected to the mounting plate, the connecting shaft penetrates through the mounting plate to be connected to the output end of the servo motor, and a plurality of deviation rectifying modules are connected to the positions, opposite to the bottom end of the narrow V-shaped belt, on the connecting shaft.

Preferably, the module of rectifying includes fixed curb plate, spout, kicking block, lead screw, slide bar, bottom block, rectifies board, gear train and clearance axostylus axostyle, fixed curb plate symmetry connect in on the mounting panel, the spout set up in on the fixed curb plate inner wall, the lead screw connect in on the connecting axle, the kicking block cover is located on the lead screw, the slide bar is located the kicking block both sides are relative the position of spout, the bottom block connect in the kicking block bottom, the plate symmetry of rectifying is located the bottom block bottom is relative the position of narrow V area both sides, the gear train is located the kicking block outside is relative the position of lead screw, the clearance axostylus axostyle rotates to be inserted and is located on the rectify board, clearance axostylus axostyle one end connect in on the gear train.

Preferably, the outer surface of the cleaning shaft rod is uniformly provided with a plurality of burrs, and the burrs are in contact with the narrow V-shaped belt surface.

Preferably, the high-low frame comprises a frame body A, a frame body B, a supporting bottom rod, a rotating rod, a notch A and a notch B, wherein the frame body A is connected to the position, opposite to the output end, of the conveyor, the supporting bottom rod is arranged at the position, opposite to the bottom end of the frame body A, of the transfer mechanism, the frame body B is connected to the top end of the supporting bottom rod, the notch A is arranged at the end, close to the transfer mechanism, of the frame body A, and the notch B is arranged at the end, close to the transfer mechanism, of the frame body B.

Preferably, the transfer mechanism comprises a support frame, an upright post, a moving block, a sliding hole, a bearing block, a bearing rod and a driving component, wherein the support frame is arranged on the back of the high-low frame, the upright post is symmetrically arranged on the support frame, the moving block is slidably sleeved on the upright post, the sliding hole is formed in the moving block, the bearing block is slidably inserted in the sliding hole, the bearing rod is connected to one end, close to the high-low frame, of the bearing block, one end of the driving component is connected to the support frame, and the other end of the driving component is connected to the bearing block.

Preferably, the driving assembly comprises a gear motor, a connecting shaft rod, gears, a chain and a connecting rod, wherein the gear motor is arranged on the supporting frame, the connecting shaft rod is connected to the position on the supporting frame corresponding to the output end of the gear motor, the gears are symmetrically arranged on the supporting frame corresponding to the position of the connecting shaft rod, the chain is connected to a plurality of gears, one end of the connecting rod is connected to the chain, and the other end of the connecting rod is connected to the bearing block.

Compared with the prior art, the invention has the beneficial effects that:

1. According to the invention, the structure of the existing belt conveyor deviation correcting device is improved, the transmission belt group of the belt conveyor is arranged to be a structure that a plurality of transmission blocks are driven by a rotating shaft to rotate, the transmission blocks drive the narrow V-shaped belts to rotate, the possibility of deviation phenomenon of the traditional belt device caused by long conveying distance and large material bearing pressure is greatly reduced by conveying the plurality of narrow V-shaped belts, the servo motor of the deviation correcting mechanism drives the connecting shafts to rotate on the mounting plates, the connecting shafts drive the deviation correcting modules to move the deviated narrow V-shaped belts, the effect of limiting and preventing deviation is achieved in the use process, the deviated narrow V-shaped belts can be corrected after the use, the phenomena of damage of main parts, potential safety hazard formation and the like are prevented, the quality of the conveyed materials of the belt conveyor is improved, the deformation of the materials is prevented, and the tire type stacker is convenient for subsequent stacking and transporting.

2. According to the invention, the mounting frames are arranged on two sides of the conveyor, the adjusting shaft rods are movably inserted on the mounting frames, the locking knob is arranged at the top end of the mounting frames, the limiting plates are connected on the plurality of adjusting shaft rods, when the conveyor conveys materials, the locking knob is adjusted according to the sizes of the materials, so that the adjusting shaft rods drive the limiting plates to form different widths, the materials are limited, the materials are prevented from frequently impacting the conveyor and the conveyor belt group to be damaged in the process of conveying, the service life of the conveyor is prolonged, and the collision deformation of the materials is prevented from being unfavorable for stacking and loading and unloading of a later stacking machine.

3. According to the invention, the gear motor is arranged on the support frame, the gear motor drives the connecting shaft rod to rotate, the connecting shaft rod drives the gear to rotate, the gear drives the chain to rotate, the chain drives the connecting rod to rotate, the connecting rod drives the bearing rod and the bearing block to move on the sliding hole, the moving block slides on the upright post due to the displacement of the connecting rod, and the bearing rod is staggered up and down at the notch A and the notch B, so that materials are conveyed up and down, the rapid stacking in the later stage of the tire type stacking machine is greatly facilitated, the matching degree of the device is improved, and the production efficiency is improved.

Drawings

FIG. 1 is a schematic diagram of the overall frontal structure of the present invention;

FIG. 2 is a schematic view of the overall rear structure of the present invention;

FIG. 3 is a schematic top view of the present invention;

FIG. 4 is a schematic elevational view of the present invention;

FIG. 5 is a schematic side view of the present invention;

FIG. 6 is a schematic diagram of the structure of the conveyor, the conveyor belt assembly, the limiting mechanism and the deviation correcting mechanism according to the present invention;

FIG. 7 is a schematic view of a deviation correcting mechanism of the present invention with portions in cross section and portions in split configuration;

FIG. 8 is a schematic side view of the internal structure of the deviation correcting mechanism according to the present invention;

FIG. 9 is a schematic diagram of the front structure of the elevation frame and the transfer mechanism of the present invention;

FIG. 10 is a schematic view of the back structure of the high-low rack and transfer mechanism of the present invention;

In the figure: 1. a conveyor; 2. a conveyor belt group; 3. a limiting mechanism; 4. a deviation correcting mechanism; 5. a high-low rack; 6. a transfer mechanism;

201. A rotating shaft; 202. a transport block; 203. a narrow V-band;

301. a mounting frame; 302. adjusting the shaft lever; 303. a locking knob; 304. a limiting plate;

401. A mounting plate; 402. a servo motor; 403. a connecting shaft; 404. a deviation rectifying module; 405. burrs;

501. a frame body A; 502. a frame body B; 503. a support bottom bar; 504. a rotating lever; 505. a notch A; 506. a notch B;

601. a support frame; 602. a column; 603. a moving block; 604. a slide hole; 605. a bearing block; 606. a carrier bar; 607. a drive assembly;

4041. Fixing the side plates; 4042. a chute; 4043. a top block; 4044. a screw rod; 4045. a slide bar; 4046. a bottom block; 4047. a deviation correcting plate; 4048. a gear set; 4049. cleaning a shaft lever;

6071. a speed reducing motor; 6072. a connecting shaft lever; 6073. a gear; 6074. a chain; 6075. and a connecting rod.

Detailed Description

The invention is further illustrated by the following examples in conjunction with the accompanying drawings:

Examples: the belt conveyor deviation correcting device for the tire type stacking machine comprises a conveyor 1, wherein a transmission belt group 2 is arranged on the conveyor 1, a limiting mechanism 3 is arranged on the conveyor 1 relative to the top end of the transmission belt group 2, a deviation correcting mechanism 4 is arranged on the conveyor 1 relative to the bottom end of the transmission belt group 2, an overhead and overhead frame 5 is arranged at the output end of the conveyor 1, and a transfer mechanism 6 is arranged on the back of the overhead frame 5; the transmission belt group 2 comprises a rotating shaft 201, transmission blocks 202 and narrow V belts 203, the rotating shaft 201 is connected to the conveyor 1, a plurality of transmission blocks 202 are connected to the rotating shaft 201, a plurality of narrow V belts 203 are connected to a plurality of transmission blocks 202, the limiting mechanism 3 is arranged at the top end of the relatively narrow V belts 203 on the conveyor 1, and the deviation correcting mechanism 4 is arranged at the bottom end of the relatively narrow V belts 203 on the conveyor 1. According to the invention, the structure of the existing belt conveyor deviation correcting device is improved, the transmission belt group 2 of the conveyor 1 is arranged to be a structure that a plurality of transmission blocks 202 are driven to rotate by a rotating shaft 201, the transmission blocks 202 drive the narrow V belts 203 to rotate, the plurality of narrow V belts 203 are conveyed, the possibility of deviation phenomenon of the traditional belt device caused by long conveying distance and large material bearing pressure is greatly reduced, the deviation correcting mechanisms 4 are arranged on two sides of the conveyor 1, the servo motors 402 of the deviation correcting mechanisms 4 drive the connecting shafts 403 to rotate on the mounting plates 401, the connecting shafts 403 drive the deviation correcting modules 404 to move the deviated narrow V belts 203, the effect of limiting and preventing deviation is achieved in the use process, the deviated narrow V belts 203 can be corrected after the use, the phenomena of damaging main parts, forming potential safety hazards and the like are prevented, the quality of conveying materials of the belt conveyor is facilitated to be improved, the materials are prevented from deforming, and the tire type stacking machine is facilitated to carry out subsequent stacking and transportation.

Specifically, the limiting mechanism 3 comprises a mounting frame 301, an adjusting shaft rod 302, locking knobs 303 and limiting plates 304, wherein the plurality of mounting frames 301 are connected to two sides of the conveyor 1, the adjusting shaft rod 302 is movably inserted on the mounting frame 301, the locking knobs 303 are in threaded connection with the mounting frames 301 at positions corresponding to the top ends of the adjusting shaft rods 302, and the limiting plates 304 are symmetrically arranged on the plurality of adjusting shaft rods 302. According to the invention, the mounting frames 301 are arranged on two sides of the conveyor 1, the adjusting shaft rods 302 are movably inserted on the mounting frames 301, the locking knobs 303 are arranged at the top ends of the mounting frames 301, the limiting plates 304 are connected to the plurality of adjusting shaft rods 302, when the conveyor 1 conveys materials, the locking knobs 303 are adjusted according to the sizes of the materials, so that the adjusting shaft rods 302 drive the limiting plates 304 to form different widths, the materials are limited, the materials are prevented from frequently impacting the conveyor 1 and the conveyor belt groups 2 to cause damage in the process of conveying, the service life of the conveyor is prolonged, and the collision deformation of the materials is prevented from being unfavorable for stacking and loading and unloading of a later stacking machine.

Further, the deviation rectifying mechanism 4 comprises a mounting plate 401, a servo motor 402, a connecting shaft 403 and deviation rectifying modules 404, the mounting plate 401 is arranged on two sides of the conveyor 1, the servo motor 402 is connected to the mounting plate 401, the connecting shaft 403 penetrates through the mounting plate 401 to be connected to the output end of the servo motor 402, and a plurality of deviation rectifying modules 404 are connected to the positions of the bottom ends of the relatively narrow V-shaped bands 203 on the connecting shaft 403. According to the invention, the deviation rectifying mechanisms 4 are arranged on two sides of the conveyor 1, the servo motor 402 of the deviation rectifying mechanism 4 drives the connecting shaft 403 to rotate on the mounting plate 401, the connecting shaft 403 drives the deviation rectifying module 404 to move the deviated narrow V-shaped belt 203, the effect of limiting and preventing deviation is achieved in the use process, the deviated narrow V-shaped belt 203 can be rectified after the use, the phenomena of damage of main parts, potential safety hazard formation and the like are prevented, the quality of materials conveyed by the belt conveyor is facilitated to be improved, the deformation of the materials is prevented, and the tire type stacking machine is convenient to carry out subsequent stacking transportation.

Still further, the deviation rectifying module 404 includes a fixed side plate 4041, a sliding groove 4042, a top block 4043, a screw rod 4044, a sliding rod 4045, a bottom block 4046, a deviation rectifying plate 4047, a gear set 4048 and a cleaning shaft 4049, wherein the fixed side plate 4041 is symmetrically connected to the mounting plate 401, the sliding groove 4042 is arranged on the inner wall of the fixed side plate 4041, the screw rod 4044 is connected to the connecting shaft 403, the top block 4043 is sleeved on the screw rod 4044, the sliding rod 4045 is arranged at the position of the two sides of the top block 4043 relative to the sliding groove 4042, the bottom block 4046 is connected to the bottom end of the top block 4043, the deviation rectifying plate 4047 is symmetrically arranged at the position of the bottom end of the bottom block 4046 relative to the two sides of the narrow V-shaped belt 203, the gear set 4048 is arranged at the position of the outer side of the top block 4043 relative to the screw rod 4044, the cleaning shaft 4049 is rotatably inserted on the cleaning shaft 4049 is arranged on the deviation rectifying plate 4047, and one end of the cleaning shaft 4049 is connected to the gear set 4048. According to the invention, the mounting plates 401 are arranged on two sides of the conveyor 1, the servo motor 402 is arranged on the mounting plates 401, the servo motor 402 drives the connecting shaft 403 to rotate, the connecting shaft 403 drives the screw rod 4044 of the deviation correcting module 404 to rotate, the screw rod 4044 rotates to enable the top block 4043 to rotate, and as the slide bars 4045 are arranged on two sides of the top block 4043 and limited by the slide grooves 4042 of the fixed side plates 4041, the top block 4043 moves, the top block 4043 drives the bottom block 4046 and the deviation correcting plate 4047 to move, deviation correction is carried out on an offset belt, the difficulty of deviation correction after the belt is offset is greatly reduced, the working efficiency is improved, and the quick development of enterprises is facilitated.

It should be noted that the outer surface of the cleaning shaft 4049 is uniformly provided with a plurality of burrs 405, and the plurality of burrs 405 are in surface contact with the narrow V-belt 203. According to the invention, the gear set 4048 is arranged on the outer side of the top block 4043, when the screw rod 4044 rotates, the gear set 4048 is driven to rotate, the gear set 4048 drives the cleaning shaft rod 4049 to rotate, a plurality of burrs 405 are uniformly distributed on the outer wall of the cleaning shaft rod 4049, and when deviation is corrected, the cleaning shaft rod 4049 performs rotary cleaning on the surface of the narrow V-shaped belt 203, so that the phenomenon that stone slag and sundries are stuck to the surface of the narrow V-shaped belt 203 to cause machine blocking and damage is prevented.

It is noted that the high-low frame 5 includes a frame body a501, a frame body B502, a supporting bottom rod 503, a rotating rod 504, a notch a505 and a notch B506, wherein the frame body a501 is connected to the conveyor 1 at a position opposite to the output end, the supporting bottom rod 503 is disposed at a position opposite to the transfer mechanism 6 at the bottom end of the frame body a501, the frame body B502 is connected to the top end of the supporting bottom rod 503, the notch a505 is disposed at one end of the frame body a501 near the transfer mechanism 6, and the notch B506 is disposed at one end of the frame body B502 near the transfer mechanism 6. According to the invention, the frame body A501 is arranged at the output end of the conveyor 1, the supporting bottom rod 503 is arranged at the outer side of the bottom end of the frame body A501, the frame body B502 is arranged on the supporting bottom rod 503, the notches A505 and B506 are respectively arranged on one side, close to the transfer mechanism 6, of the frame body A501 and the frame body B502, the transfer mechanism 6 is utilized to enable materials conveyed by the conveyor 1 to be carried down through the transfer mechanism 6, the stacking of a subsequent tire type stacking machine is facilitated, the structure is stable and efficient, the production efficiency is increased while the service life of the device is prolonged, and the rapid development of the conveyor industry is facilitated.

It is worth introducing that the transferring mechanism 6 includes a supporting frame 601, a column 602, a moving block 603, a sliding hole 604, a bearing block 605, a bearing rod 606 and a driving component 607, the supporting frame 601 is disposed on the back of the high-low frame 5, the column 602 is symmetrically disposed on the supporting frame 601, the moving block 603 is slidably sleeved on the column 602, the sliding hole 604 is disposed on the moving block 603, the bearing block 605 is slidably inserted in the sliding hole 604, the bearing rod 606 is connected to one end of the bearing block 605 near the high-low frame 5, one end of the driving component 607 is connected to the supporting frame 601, and the other end of the driving component 607 is connected to the bearing block 605. According to the invention, the support frame 601 is arranged on the back surface of the high-low frame 5, the two upright posts 602 are arranged on the support frame 601, when the driving component 607 drives the bearing rod 606 and the bearing block 605 to move on the sliding hole 604, the driving component 607 enables the moving block 603 to slide on the upright posts 602, so that the up-down conveying of materials is realized, the stacking of the subsequent tire type stacking machine is facilitated, and the working efficiency is improved.

It is emphasized that the driving assembly 607 includes a gear motor 6071, a connecting shaft 6072, gears 6073, a chain 6074 and a connecting rod 6075, wherein the gear motor 6071 is disposed on the supporting frame 601, the connecting shaft 6072 is connected to the supporting frame 601 at a position opposite to the output end of the gear motor 6071, the gears 6073 are symmetrically disposed on the supporting frame 601 at a position opposite to the connecting shaft 6072, the chain 6074 is connected to the gears 6073, one end of the connecting rod 6075 is connected to the chain 6074, and the other end of the connecting rod 6075 is connected to the bearing block 605. According to the invention, the gear motor 6071 is arranged on the support frame 601, the gear motor 6071 drives the connecting shaft lever 6072 to rotate, the connecting shaft lever 6072 drives the gear 6073 to rotate, the gear 6073 drives the chain 6074 to rotate, the chain 6074 drives the connecting rod 6075 to rotate, the connecting rod 6075 drives the bearing rod 606 and the bearing block 605 to move on the sliding hole 604, the moving block 603 slides on the upright post 602 due to the displacement of the connecting rod 6075, and the bearing rod 606 is staggered up and down at the notch A505 and the notch B506, so that materials are carried up and down, the rapid stacking in the later stage of the tire type stacker is greatly facilitated, the matching degree of the device is improved, and the production efficiency is improved.

Working principle: when the automatic correction device is used, firstly, mounting plates 401 are arranged on two sides of a conveyor 1, servo motors 402 are arranged on the mounting plates 401, the servo motors 402 drive connecting shafts 403 to rotate, the connecting shafts 403 drive screw rods 4044 of a correction module 404 to rotate, the screw rods 4044 rotate to enable top blocks 4043 to rotate, because sliding rods 4045 are arranged on two sides of the top blocks 4043, the sliding rods 4045 are limited by sliding grooves 4042 of fixed side plates 4041, the top blocks 4043 move, the top blocks 4043 drive bottom blocks 4046 and correction plates 4047 to move, correction is carried out on offset belts, a speed reducing motor 6071 is arranged on a supporting frame 601, the speed reducing motor 6071 drives a connecting shaft 6072 to rotate, the connecting shaft 6072 drives a gear 6073 to rotate, the gear 6073 drives a chain 6074 to rotate, the chain 6075 drives a bearing rod 606 and a bearing block 605 to move on a sliding hole 604, and the displacement of the connecting rod 6075 enables the moving block 603 to slide on a stand 602, and the bearing rod 606 to be staggered up and down at a notch A505 and a notch B506, so that materials are carried up and down.

The embodiments of the present invention are disclosed as preferred embodiments, but not limited thereto, and those skilled in the art will readily appreciate from the foregoing description that various modifications and variations can be made without departing from the spirit of the present invention.

Claims

1. The utility model provides a tire formula is belt conveyor deviation correcting device for stacker, includes conveyer (1), its characterized in that, be equipped with on conveyer (1) and transmit belt group (2), on conveyer (1) relative transmit belt group (2) top is equipped with stop gear (3), on conveyer (1) relative transmit belt group (2) bottom position is equipped with deviation correcting mechanism (4), conveyer (1) output is equipped with high-low frame (5), high-low frame (5) back is equipped with transport mechanism (6);

the conveying belt group (2) comprises a rotating shaft (201), a conveying block (202) and narrow V-shaped belts (203), wherein the rotating shaft (201) is connected to the conveyor (1), a plurality of the conveying blocks (202) are connected to the rotating shaft (201), a plurality of the narrow V-shaped belts (203) are connected to a plurality of the conveying blocks (202), the limiting mechanism (3) is arranged at the position, opposite to the top end of the narrow V-shaped belts (203), on the conveyor (1), and the deviation rectifying mechanism (4) is arranged at the position, opposite to the bottom end of the narrow V-shaped belts (203), on the conveyor (1);

The limiting mechanism (3) comprises a mounting frame (301), an adjusting shaft rod (302), a locking knob (303) and limiting plates (304), wherein a plurality of the mounting frames (301) are connected to two sides of the conveyor (1), the adjusting shaft rod (302) is movably inserted into the mounting frame (301), the locking knob (303) is in threaded connection with the mounting frame (301) at the position corresponding to the top end of the adjusting shaft rod (302), and the limiting plates (304) are symmetrically arranged on the adjusting shaft rods (302);

The correcting mechanism (4) comprises a mounting plate (401), a servo motor (402), a connecting shaft (403) and a correcting module (404), wherein the mounting plate (401) is arranged on two sides of the conveyor (1), the servo motor (402) is connected to the mounting plate (401), the connecting shaft (403) penetrates through the mounting plate (401) to be connected to the output end of the servo motor (402), and a plurality of correcting modules (404) are connected to the positions, opposite to the bottom end of the narrow V-shaped belt (203), on the connecting shaft (403);

the utility model provides a correction module (404) is including fixed curb plate (4041), spout (4042), kicking block (4043), lead screw (4044), slide bar (4045), bottom block (4046), rectifying plate (4047), gear train (4048) and clearance axostylus axostyle (4049), fixed curb plate (4041) symmetry connect in on mounting panel (401), spout (4042) set up in on the inner wall of fixed curb plate (4041), lead screw (4044) connect in on connecting axle (403), kicking block (4043) cover is located on lead screw (4044), slide bar (4045) are located the position of kicking block (4043) both sides relative spout (4042), bottom block (4046) connect in top block (4043) bottom, rectifying plate (4047) symmetry are located bottom block (4046) bottom is relative the position of narrow V area (203) both sides, gear train (4048) are located top block (4043) is located on the position of the opposite side of lead screw (4044), the clearance axostylus axostyle (4048) is located on the top of the clearance axostylus axostyle (4047).

2. The belt conveyor deviation correcting device for the tire type stacking machine according to claim 1, wherein a plurality of burrs (405) are uniformly arranged on the outer surface of the cleaning shaft lever (4049), and the burrs (405) are in surface contact with the narrow V-belt (203).

3. The belt conveyor deviation correcting device for the tire type stacking machine according to claim 2, wherein the high-low frame (5) comprises a frame body A (501), a frame body B (502), a supporting bottom rod (503), a rotating rod (504), a notch A (505) and a notch B (506), the frame body A (501) is connected to the position, opposite to the output end, on the conveyor (1), the supporting bottom rod (503) is arranged at the position, opposite to the transfer mechanism (6), of the bottom end of the frame body A (501), the frame body B (502) is connected to the top end of the supporting bottom rod (503), the notch A (505) is arranged at one end, close to the transfer mechanism (6), of the frame body A (501), and the notch B (506) is arranged at one end, close to the transfer mechanism (6), of the frame body B (502).

4. A belt conveyor deviation correcting device for a tire type stacking machine according to claim 3, wherein the transfer mechanism (6) comprises a supporting frame (601), an upright post (602), a moving block (603), a sliding hole (604), a bearing block (605), a bearing rod (606) and a driving component (607), the supporting frame (601) is arranged on the back of the high-low frame (5), the upright post (602) is symmetrically arranged on the supporting frame (601), the moving block (603) is slidably sleeved on the upright post (602), the sliding hole (604) is formed in the moving block (603), the bearing block (605) is slidably inserted on the sliding hole (604), the bearing rod (606) is connected to one end, close to the high-low frame (5), of the bearing block (605), one end of the driving component (607) is connected to the supporting frame (601), and the other end of the driving component (607) is connected to the bearing block (605).

5. The belt conveyor deviation correcting device for a tire type stacking machine according to claim 4, wherein the driving assembly (607) comprises a gear motor (6071), a connecting shaft lever (6072), a gear (6073), a chain (6074) and a connecting rod (6075), the gear motor (6071) is arranged on the supporting frame (601), the connecting shaft lever (6072) is connected to the supporting frame (601) at a position corresponding to the output end of the gear motor (6071), the gear (6073) is symmetrically arranged on the supporting frame (601) at a position corresponding to the connecting shaft lever (6072), the chain (6074) is connected to a plurality of the gears (6073), one end of the connecting rod (6075) is connected to the chain (6074), and the other end of the connecting rod (6075) is connected to the bearing block (605).