CN217731831U - Material lane conveyor - Google Patents

Abstract

The invention provides a material lane conveyor, and belongs to the field of lane conveying. The problems that the chain pin shaft is seriously abraded, the maintenance is difficult, the chain tension degree is low, and the lane dividing component is simplified and the reliability is improved are solved. The landing leg is connected in the frame below, the motor is connected on the torque arm, the torque arm is connected on the landing leg, the driving belt sprocket shaft is connected with the motor output shaft transmission, one end of two outer bent plate roller chains is respectively meshed on the two-end sprocket of the driving belt sprocket shaft, the other end of the two outer bent plate roller chains is meshed on the driven sprocket assembly, a sliding block is connected on every two adjacent sliding rods in a sliding manner, one end, far away from a bearing material, of each sliding block is connected with a roller, and a shunting device is connected on the frame and used for driving the roller to change the movement direction of the sliding block.

Description

Material lane conveyor

Technical Field

The utility model belongs to lane is carried the field, especially relates to a material lane conveyer.

Background

In an automatic production line, the lifting of the upstream production capacity brings certain pressure to the downstream loading operation, or two different materials exist in the production line to be transported and need to be separated, and based on the above situation, the lane conveyor is widely applied;

the existing lane dividing conveyor is provided with holes at two ends of a sliding rod, and a chain pin shaft is inserted into the sliding rod holes, so that the problems of serious abrasion and difficult replacement of the chain pin shaft can occur;

the cylinder for shunting is arranged inside the shunting conveyor, so that inconvenience is brought to installation and maintenance work, enterprise production is influenced, and economic loss is caused;

the traditional lane dividing conveyor has complex lane dividing parts and chain tensioning parts and high maintenance cost;

therefore, a material lane conveyor is designed.

Disclosure of Invention

In view of this, the utility model aims at providing a material lane conveyor to solve and overhaul the difficulty, the chain rate of tension is low and lane parts simplify and improve the reliability scheduling problem.

In order to achieve the above purpose, the utility model adopts the following technical scheme: a material shunting conveyor comprises supporting legs, motors, outer bent plate roller chains, sliding rods, sliding blocks, a rack, shunting devices, rollers, driving belt roller chains and driven sprocket assemblies, wherein the supporting legs are connected below the rack, the motors are connected to the supporting legs, the driving belt roller chains and the driven sprocket assemblies are connected to two sides of the rack, the driving belt roller chains are in transmission connection with output shafts of the motors, two outer bent plate roller chains are arranged, one ends of the two outer bent plate roller chains are respectively meshed with sprockets at two ends of the driving belt roller chains, the other ends of the two outer bent plate roller chains are meshed with the driven sprocket assemblies, a plurality of sliding rods are uniformly distributed between the two outer bent plate roller chains, each two adjacent sliding rods are connected with one sliding block in a sliding mode, one end, far away from a material bearing capacity, of each sliding block is connected with a roller, and the shunting devices are connected to the rack and used for driving the rollers to change the movement direction of the sliding blocks; the lane dividing device comprises an extension beam, a shifting rod mounting seat, a lane divider, a shifting rod, an extension rod and a cylinder, wherein the extension beam is connected to the inner walls of the two sides of the frame, the extension beam is connected with the shifting rod mounting seat, the extension beam is connected with the lane divider, one end of the shifting rod is hinged to the shifting rod mounting seat, the other end of the shifting rod is hinged to one end of the extension rod, and the other end of the extension rod is hinged to the movable end of the cylinder.

Furthermore, one side of the outer bending plate roller chain, which is close to the slide rods, is provided with flanges which correspond to the slide rods one to one, and the slide rods are fixed on the flanges of the outer bending plate roller chain through bolts.

Further, driven sprocket assembly include belt seat bearing, tensioning slide, lock nut, tensioning seat, screw rod and driven belt sprocket axle, the belt seat bearing is connected on the tensioning slide, tensioning slide sliding connection is in the frame, tensioning slide one side is provided with the tensioning seat, tensioning seat fixed connection is in the frame, threaded connection has the screw rod on the tensioning seat, and the free end of screw rod supports on the tensioning slide, it is connected with driven belt sprocket axle to rotate on the belt seat bearing, driven belt sprocket axle both ends sprocket respectively with two the other end of outer bent plate roller chain corresponds the meshing and is connected, lock nut for tensioning seat symmetric connection on the screw rod.

Furthermore, the lane dividing device further comprises a cylinder bottom plate, two supports, two limit stops, two trunnion seats, a linear bearing, a sliding assembly and a locking nut, wherein the cylinder bottom plate is connected to the frame, the supports are symmetrically connected to two sides of the cylinder bottom plate in the front and back directions, the two limit stops are symmetrically connected to two sides of each support, each limit stop is fixed to the support through the locking nut, the sliding assembly is connected between the limit stops distributed in the left and right directions in a sliding mode, the cylinder is fixed to the cylinder bottom plate through the trunnion seats, one end of the sliding assembly is connected to the movable end of the cylinder, the other end of the sliding assembly is hinged to the other end of the extension rod, the sliding assembly is connected with the linear bearing in a sliding mode, and the linear bearing is fixedly connected to the cylinder bottom plate.

Furthermore, the upper end face and the lower end face of the deflector rod mounting seat are symmetrically provided with a shunting groove, and the area of one side opening of the shunting groove is smaller than that of the other side opening.

Furthermore, the lane separator comprises an oblique lane, an oblique reset lane, a straight reset lane and a U-shaped reset lane, wherein the oblique lane is positioned right above the oblique reset lane, one end of the oblique lane is communicated with one end of the oblique reset lane, the other end of the oblique lane is communicated with one side, with a larger opening area, of a lane groove on the upper end face of the driving lever mounting seat, the straight lane is positioned right above the straight reset lane, one end of the straight lane is communicated with the straight reset lane, the other end of the straight lane is communicated with one side, with a larger opening area, of the lane groove on the upper end face of the driving lever mounting seat, the upper opening and the lower opening of the U-shaped reset lane are respectively communicated with one end, with a smaller opening area, of the lane groove on the upper end face and the lower end face of the driving lever mounting seat, one end, with a larger opening area, of the lane groove on the lower end face of the driving lever mounting seat is communicated with the other end of the oblique reset lane, and the other end of the lane groove on the lower end face of the driving lever mounting seat is communicated with the other end of the straight reset lane.

Furthermore, the deflector rod is arranged in the shunting groove at the upper side, and a hinge point of the deflector rod and the deflector rod mounting seat is positioned at one end with a larger opening area in the shunting groove.

Furthermore, the shifting lever shifts the roller to enable the roller to move along an oblique lane or a straight lane.

Furthermore, a transition roller is arranged on one side, close to the motor, of the machine frame, and a torque arm used for being connected with the motor is arranged on the supporting leg.

Furthermore, a self-lubricating bearing is arranged in the sliding block.

Compared with the prior art, the beneficial effects of the utility model are that:

1. the outer bent plate roller chain is provided with the flange, and then the sliding rod is fixed by the bolt, so that the abrasion probability of the chain pin shaft is reduced;

2. the air cylinder is arranged on the outer side of the equipment in a manner of lengthening the rod, so that the problem of difficulty in maintenance is solved, the air cylinder can be prevented from being over-positioned, and the accuracy of lane division is improved;

3. the problem of low chain tension is solved through the arrangement of the driven chain wheel assembly;

4. a transition roller is arranged to improve the smoothness of material conveying;

5. the lane driving realizes the simplification of lane parts through a deflector rod, and improves the reliability and the maintenance economy.

Drawings

The accompanying drawings, which form a part hereof, are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the invention without undue limitation. In the drawings:

fig. 1 is an overall structure of a material diversion conveyor according to the present invention;

fig. 2 is a schematic plan view of a lane dividing device of a lane dividing conveyor for materials according to the present invention;

fig. 3 is a schematic view of the installation position of the lane dividing device of the material lane dividing conveyor according to the present invention;

fig. 4 is a schematic view of a lane dividing device of the lane dividing conveyor of the present invention;

fig. 5 is a schematic view of the enlarged structure of fig. 4 of the material lane conveyor of the present invention.

A support leg 1; a motor 2; a torsion arm 3; a transition roll 4; an outer bent plate roller chain 5; a slide bar 6; a slider 7; a frame 8; a lane dividing device 9; 9-1 of a tension beam; a deflector rod mounting seat 9-2; 9-3 of a channel separator; 9-4 parts of a deflector rod; 9-5 of an extension bar; 9-6 parts of a cylinder bottom plate; 9-7 of a support; 9-8 of limit stop blocks; 9-9 parts of trunnion seat; 9-10 parts of a cylinder; linear bearings 9-11; sliding assemblies 9-12; 9-13 parts of a locking nut; oblique lane 9-14; oblique reset lane 9-15; 9-16 of straight lane; the straight reset lane is 9-17; 9-18 of U-shaped reset channel; 9-19 parts of a shunting groove; a pedestal bearing 10; a tension slide 11; a lock nut 12; a tension seat 13; a screw 14; a roller 15; a drive belt sprocket shaft 16; driven belt sprocket shaft 17; a driven sprocket assembly 18.

Detailed Description

The technical solution in the embodiment of the present invention will be clearly and completely explained below with reference to the drawings in the embodiment of the present invention. It should be noted that, in the present invention, the embodiments and features of the embodiments may be combined with each other without conflict, and the described embodiments are only a part of the embodiments of the present invention, not all of the embodiments.

Referring to the attached drawings for explaining the embodiment, the material shunting conveyor comprises a support leg 1, a motor 2, an outer bent plate roller chain 5, a slide rod 6, a slide block 7, a frame 8, a shunting device 9, rollers 15, a driving belt sprocket shaft 16 and a driven sprocket assembly 18, wherein the support leg 1 is connected below the frame 8, the motor 2 is connected to the support leg 1, the driving belt sprocket shaft 16 and the driven sprocket assembly 18 are connected to two sides of the frame 8, the driving belt sprocket shaft 16 is in transmission connection with an output shaft of the motor 2, the outer bent plate roller chain 5 is provided with two outer bent plate roller chains 5, one end of each of the two outer bent plate roller chains 5 is respectively meshed with a sprocket at two ends of the driving belt sprocket shaft 16, the other ends of the two outer bent plate roller chains 5 are meshed with the driven sprocket assembly 18, a plurality of sliding rods 6 are uniformly connected between the two outer bent plate roller chains 5, one side, close to the sliding rods 6, of each outer bent plate roller chain 5 is provided with a flange corresponding to the corresponding sliding rod 6 one by one, the sliding rods 6 are fixed on the flanges of the outer bent plate roller chains 5 through bolts, so that the abrasion of chain pin shafts of the outer bent plate roller chains 5 can be avoided, the possibility of abrasion is reduced, a sliding block 7 is connected on each two adjacent sliding rods 6 in a sliding manner, one end, far away from a bearing material, of each sliding block 7 is connected with a roller 15, a self-lubricating bearing is arranged in each sliding block 7, so that the sliding blocks 7 can be prevented from rotating and being abraded along with the movement of the sliding rods 6, and a shunting device 9 is connected on the rack 8 and used for driving the rollers 15 to change the movement direction of the sliding blocks 7; the lane dividing device 9 comprises an extension beam 9-1, a deflector rod mounting seat 9-2, a lane divider 9-3, a deflector rod 9-4, an extension rod 9-5 and a cylinder 9-10, wherein a plurality of the extension beams 9-1 are connected to the inner walls of two sides of the frame 8, the extension beam 9-1 is connected with the deflector rod mounting seat 9-2, the extension beam 9-1 is connected with the lane divider 9-3, one end of the deflector rod 9-4 is hinged to the deflector rod mounting seat 9-2, the other end of the deflector rod 9-4 is hinged to one end of the extension rod 9-5, the other end of the extension rod 9-5 is hinged to the movable end of the cylinder 9-10, and the extension rod 9-5 is arranged to facilitate the installation of the cylinder 9-10 outside the frame 8 and the later maintenance.

In this embodiment, driven sprocket assembly 18 include belt seat bearing 10, tensioning slide 11, lock nut 12, tensioning seat 13, screw rod 14 and driven sprocket shaft 17, belt seat bearing 10 connects on tensioning slide 11, tensioning slide 11 sliding connection is in frame 8, tensioning slide 11 one side is provided with tensioning seat 13, tensioning seat 13 fixed connection is in frame 8, threaded connection has screw rod 14 on tensioning seat 13, and the free end of screw rod 14 supports on tensioning slide 11, the last rotation of belt seat bearing 10 is connected with driven sprocket shaft 17, and driven sprocket shaft 17 both ends sprocket respectively with two the other end of outer bent plate roller chain 5 corresponds the meshing and is connected, and lock nut 12 is connected for tensioning seat 13 symmetry on screw rod 14, through twisting screw rod 14 for screw rod 14 goes to top tensioning slide 11, and tensioning slide 11 can drive tensioning seat 13 motion, and tensioning seat 13 can drive driven sprocket shaft 17 motion, and driven sprocket shaft 17 can make outer bent plate roller chain 5 by tensioning roller chain 5, then carries out lock nut 12 with screw rod 14 to prevent the tensioning slide 11, thereby the tensioning from taking place the reliability that the tensioning slides.

In this embodiment, the lane dividing device 9 further includes a cylinder bottom plate 9-6, support seats 9-7, limit stops 9-8, trunnion seats 9-9, linear bearings 9-11, sliding assemblies 9-12 and lock nuts 9-13, the cylinder bottom plate 9-6 is connected to the frame 8, there are two support seats 9-7, the two support seats 9-7 are symmetrically connected to the two sides of the cylinder bottom plate 9-6 in the front-back direction, the two limit stops 9-8 are symmetrically connected to the left and right sides of each support seat 9-7, each limit stop 9-8 is fixed to the support seat 9-7 through the lock nut 9-13, protrusions are provided at the upper and lower ends of the sliding assembly 9-12, the protrusions of the sliding assembly 9-12 are located between the limit stops 9-8 distributed in the left and right direction, the air cylinder 9-10 is fixed on the air cylinder bottom plate 9-6 through the trunnion seat 9-9, one end of the sliding component 9-12 is connected on the movable end of the air cylinder 9-10, the other end of the sliding component 9-12 is hinged with the other end of the extension bar 9-5, the sliding component 9-12 is connected with the linear bearing 9-11 in a sliding manner, the linear bearing 9-11 is fixedly connected on the air cylinder bottom plate 9-6, and the distance between the left limit stop 9-8 and the right limit stop 9-8 is adjusted and then locked by the locking nut 9-13, so that the protruding stroke range of the upper end and the lower end of the sliding component 9-12 can be adjusted, and the over-position movement phenomenon of the air cylinder 9-10 can be prevented.

In the embodiment, the upper end surface and the lower end surface of the deflector rod mounting seat 9-2 are symmetrically provided with the channel dividing grooves 9-19, and the opening area of one side of the channel dividing grooves 9-19 is smaller than that of the other side.

In the embodiment, the lane separator 9-3 comprises an oblique lane 9-14, an oblique reset lane 9-15, a straight lane 9-16, a straight reset lane 9-17 and a U-shaped reset lane 9-18, the oblique branch channels 9-14 are positioned right above the oblique reset branch channels 9-15, one end of the oblique branch 9-14 is communicated with one end of the oblique resetting branch 9-15, the other end of the inclined branch 9-14 is communicated with the side with larger opening area of the branch groove 9-19 on the upper end surface of the deflector rod mounting seat 9-2, the straight branch channels 9-16 are positioned right above the straight resetting branch channels 9-17, one end of the straight branch channel 9-16 is communicated with the straight reset branch channel 9-17, the other end of the straight branch channel 9-16 is communicated with the side with larger opening area of the branch channel 9-19 on the upper end surface of the deflector rod mounting seat 9-2, the upper and lower openings of the U-shaped reset channel 9-18 are respectively communicated with the end with smaller opening area of the shunting groove 9-19 on the upper and lower end surfaces of the deflector rod mounting seat 9-2, the end with larger opening area of the branch channel 9-19 on the lower end surface of the deflector rod mounting seat 9-2 is communicated with the other end of the oblique reset branch channel 9-15, the end with larger opening area of the shunting groove 9-19 on the lower end face of the deflector rod mounting seat 9-2 is communicated with the other end of the straight resetting shunting groove 9-17, the deflector rod 9-4 is arranged in the shunting groove 9-19 on the upper side, and the hinged point of the deflector rod 9-4 and the deflector rod mounting seat 9-2 is positioned at one end with larger opening area in the shunting groove 9-19.

When the device works, the motor 2 operates to drive the driving belt sprocket shaft 16 to rotate, the driving belt sprocket shaft 16 drives the driven belt sprocket shaft 17 to synchronously rotate through the outer bent plate roller chain 5, so that the outer bent plate roller chain 5 drives materials put from one side of the driven belt sprocket shaft 17 to one side of the driving belt sprocket shaft 16 in the moving process, the frame 8 is provided with the transition roller 4 at one side close to the motor 2, the landing leg 1 is provided with the torque arm 3 for connecting the motor 2, the transition roller 4 can prevent the generation of gaps when in butt joint with downstream equipment, in the conveying process, the movable end of the air cylinder 9-10 is driven by the air cylinder 9-10 to reciprocate, the movable end of the air cylinder 9-10 is connected to the sliding component 9-12 in a threaded connection mode, thereby driving the sliding components 9-12 to do reciprocating motion, the sliding components 9-12 can drive the deflector rod 9-4 to do reciprocating swing around the hinging point of the deflector rod mounting seat 9-2 through the extension rod 9-5, when the movable end of the cylinder 9-10 extends out of the cylinder 9-10, the deflector rod 9-4 can form a straight line with the straight branch passage 9-16, the roller 15 of the moving slide block 7 can enter the straight branch passage 9-16 along the branch passage groove 9-19, then turns over 180 degrees and enters the straight resetting branch passage 9-17 to do motion, after the way is arranged downwards in the branch passage groove 9-19, then returns to the upward branch passage groove 9-19 along with the U-shaped resetting branch passage 9-18 after turning over, at the moment, if the movable end of the cylinder 9-10 retracts from the cylinder 9-10, the deflector rod 9-4 can form a straight line with the inclined branch passage 9-14, the deflector rod 9-4 can push the roller 15 into the oblique branch 9-14, move along the oblique reset branch 9-15, turn over 180 degrees and enter the oblique reset branch 9-15, then converge into the downward branch groove 9-19 along the oblique reset branch 9-15, then return to the upward branch groove 9-19 after reversing along with the U-shaped reset branch 9-18, thus the motion track of the slider 7 can be changed by changing the motion track of the roller 15, thereby realizing the function of branch transportation.

The embodiment of the present invention disclosed above is only used to help explain the present invention. The examples are not intended to be exhaustive or to limit the invention to the precise forms disclosed. Many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and its practical applications, to thereby enable others skilled in the art to best understand the invention for and utilize the invention.

Claims (10)

1. The utility model provides a material lane conveyer which characterized in that: the support leg is connected below the rack (8), the motor (2) is connected to the support leg (1), the driving chain wheel shaft (16) and the driven chain wheel assembly (18) are connected to two sides of the rack (8), the driving chain wheel shaft (16) is in transmission connection with an output shaft of the motor (2), the two outer bent plate roller chains (5) are arranged, one end of each of the two outer bent plate roller chains (5) is respectively meshed with chain wheels at two ends of the driving chain wheel shaft (16), the other ends of the two outer bent plate roller chains (5) are meshed with the driven chain wheel assembly (18), a plurality of the outer bent plate roller chains (5) are uniformly connected between the two outer bent plate roller chains (5), each two adjacent sliding blocks (6) are connected with one sliding block (7), one end of each sliding block (7) is connected to the corresponding sliding block (7), and the sliding block (7) is connected to the rack (7) and used for changing the direction of the sliding block (7) and the roller (7) is connected to the roller wheel (15) to change the direction of the rack (8); the lane dividing device (9) comprises an straining beam (9-1), a shifting rod mounting seat (9-2), a lane divider (9-3), a shifting rod (9-4), an extension bar (9-5) and an air cylinder (9-10), wherein the straining beams (9-1) are connected to the inner walls of the two sides of the rack (8), the straining beam (9-1) is connected with the shifting rod mounting seat (9-2), the straining beam (9-1) is connected with the lane divider (9-3), one end of the shifting rod (9-4) is hinged to the shifting rod mounting seat (9-2), the other end of the shifting rod (9-4) is hinged to one end of the extension bar (9-5), and the other end of the extension bar (9-5) is hinged to the movable end of the air cylinder (9-10).

2. The material diverting conveyor according to claim 1, wherein: flanges which are in one-to-one correspondence with the slide bars (6) are arranged on one side, close to the slide bars (6), of the outer bent plate roller chain (5), and the slide bars (6) are fixed on the flanges of the outer bent plate roller chain (5) through bolts.

3. A material diverting conveyor according to claim 1 or 2, characterized in that: driven sprocket assembly (18) including rolling bearing (10), tensioning slide (11), lock nut (12), tensioning seat (13), screw rod (14) and driven sprocket axle (17), rolling bearing (10) is connected on tensioning slide (11), tensioning slide (11) sliding connection is on frame (8), tensioning slide (11) one side is provided with tensioning seat (13), tensioning seat (13) fixed connection is on frame (8), threaded connection has screw rod (14) on tensioning seat (13), and the free end of screw rod (14) is supported on tensioning slide (11), rotate on rolling bearing (10) and be connected with driven sprocket axle (17), driven sprocket axle (17) both ends sprocket respectively with two the other end of outer bent plate roller chain (5) corresponds the meshing and is connected, lock nut (12) are connected for tensioning seat (13) symmetry on screw rod (14).

4. The material diverting conveyor according to claim 1, wherein: the lane dividing device (9) further comprises an air cylinder bottom plate (9-6), support seats (9-7), limit stops (9-8), trunnion seats (9-9), linear bearings (9-11), sliding components (9-12) and locking nuts (9-13), the air cylinder bottom plate (9-6) is connected to the rack (8), the number of the support seats (9-7) is two, the two support seats (9-7) are symmetrically connected to the two sides of the air cylinder bottom plate (9-6) in a front-back mode, the left side and the right side of each support seat (9-7) are symmetrically connected with the two limit stops (9-8), each limit stop (9-8) is fixed to the support seat (9-7) through the locking nuts (9-13), the sliding components (9-12) are slidably connected between the limit stops (9-8) distributed on the left side and the right side, the air cylinders (9-10) are fixed to the air cylinder bottom plate (9-6) through the trunnion seats (9-9), one end of each sliding component (9-12) is connected to the movable end of the air cylinder (9-10), the sliding components (9-12) are hinged to the other end of the sliding components (9-12) and the other sliding components (9-12) and the linear bearings (9-11) are connected with the other end of the linear bearings (9-12), the linear bearings (9-11) are fixedly connected to the cylinder bottom plates (9-6).

5. The material diverting conveyor according to claim 1, wherein: the upper end face and the lower end face of the deflector rod mounting seat (9-2) are symmetrically provided with a channel dividing groove (9-19), and the opening area of one side of the channel dividing groove (9-19) is smaller than that of the other side.

6. The material diverting conveyor according to claim 5, wherein: the lane separator (9-3) comprises an oblique lane (9-14), an oblique reset lane (9-15), a straight lane (9-16), a straight reset lane (9-17) and a U-shaped reset lane (9-18), the oblique lane (9-14) is positioned right above the oblique reset lane (9-15), one end of the oblique lane (9-14) is communicated with one end of the oblique reset lane (9-15), the other end of the oblique lane (9-14) is communicated with the side with larger opening area of the lane groove (9-19) on the upper end face of the deflector rod mounting seat (9-2), the straight lane (9-16) is positioned right above the straight reset lane (9-17), one end of the straight lane (9-16) is communicated with the straight reset lane (9-17), the other end of the straight lane (9-16) is communicated with the side with the lane groove (9-17), the other end of the straight lane (9-16) is communicated with the side with the opening area of the lane groove (9-19) on the upper end face of the deflector rod mounting seat (9-2), the side with the opening area of the upper end face of the deflector rod mounting seat (9-2), the two lanes (9-15) are respectively communicated with the upper end face of the lower end face of the deflector rod mounting seat (9-2), and the lower end face of the deflector rod mounting seat (9-19), and the deflector rod mounting seat (9-2), and the two lower end face of the deflector rod mounting seat (9-2) are respectively communicated with the side of the lower end face of the deflector rod mounting seat (9-19), and the deflector rod mounting seat (9-2), and the deflector rod mounting seat (9-19) are respectively communicated with the deflector rod mounting seat (9-2), and the deflector rod mounting seat (9-2) and the deflector rod mounting seat ) The other end of the driving lever is communicated with the other end of the straight reset branch channel (9-17), and the end with larger opening area of the branch channel (9-19) on the lower end surface of the driving lever mounting seat (9-2) is communicated with the other end of the straight reset branch channel (9-17).

7. The material diverting conveyor according to claim 6, wherein: the deflector rod (9-4) is arranged in the shunting groove (9-19) at the upper side, and a hinge point of the deflector rod (9-4) and the deflector rod mounting seat (9-2) is positioned at one end of the shunting groove (9-19) with a larger opening area.

8. The material diverting conveyor according to claim 7, characterized in that: the deflector rod (9-4) drives the roller (15) to make the roller (15) move along the inclined lane (9-14) or the straight lane (9-16).

9. The material diverting conveyor according to claim 1, wherein: one side of the frame (8) close to the motor (2) is provided with a transition roller (4), and the support leg (1) is provided with a torque arm (3) used for connecting the motor (2).

10. The material diverting conveyor according to claim 1, wherein: and a self-lubricating bearing is arranged in the sliding block (7).

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