CN111483762A

CN111483762A - Bucket elevator who possesses anti-sticking dead function

Info

Publication number: CN111483762A
Application number: CN202010388749.3A
Authority: CN
Inventors: 贾栋杰
Original assignee: Fuzhou Economic And Technological Development Zone Jiayule Technology Co ltd
Current assignee: Zhejiang Heng Teeth Drive Co.,Ltd.
Priority date: 2020-05-09
Filing date: 2020-05-09
Publication date: 2020-08-04
Anticipated expiration: 2040-05-09
Also published as: CN111483762B

Abstract

The invention discloses a bucket elevator with an anti-jamming function, which comprises an elevator body, wherein a feeding cavity with an upward opening is arranged in the elevator body, a vibration cavity with an upward opening is arranged in the lower end wall of the feeding cavity, a feeding device is arranged in the vibration cavity, and the feeding device comprises a vibration leakage plate which is arranged in the vibration cavity in a sliding mode and completely shields the opening at the upper side of a feeding hole.

Description

Bucket elevator who possesses anti-sticking dead function

Technical Field

The invention relates to the technical field of elevator protection, in particular to a bucket elevator with an anti-blocking function.

Background

The bucket elevator is a continuous conveying machine for vertically lifting materials by utilizing a series of hoppers uniformly and fixedly connected to an endless traction member, and the bucket elevator is divided into three types, namely a loop chain, a plate chain and a belt, for vertically or nearly vertically conveying bulk materials upwards by utilizing a series of hoppers fixedly connected to a traction chain or a rubber belt.

The feeding of traditional bucket elevator adopts the mode of directly empting the material into the lifting machine, and the material that can lead to getting into the lifting machine like this is too much, or the material glues and leads to the hoisting device card to die to make the impaired condition of part take place together, only relies on artificial clearance to some clouts that have not been promoted yet in the lifting machine simultaneously, has wasted a large amount of manpower resources.

Disclosure of Invention

Aiming at the technical defects, the invention provides a bucket elevator with an anti-blocking function, which can overcome the defects.

The bucket elevator with the anti-blocking function comprises an elevator body, wherein a feeding cavity with an upward opening is arranged in the elevator body, a vibration cavity with an upward opening is arranged in the lower end wall of the feeding cavity, a feeding device is arranged in the vibration cavity, the feeding device comprises a vibration bushing which is slidably arranged in the vibration cavity and completely shields the opening at the upper side of the feeding hole, a fixed bushing fixed at the opening at the upper side of the feeding hole is arranged below the vibration bushing, an output cavity with an upward opening is arranged at the right side of the lower end wall of the vibration cavity, a gear cavity is arranged at the lower side of the output cavity, a working cavity is arranged at the left side of the feeding cavity, a lifting device is arranged in the working cavity, a feeding hole is arranged between the working cavity and the vibration cavity, and a discharging cavity with a part of an upward opening is arranged below the working cavity, the left end wall of the discharging cavity is internally provided with a rotating cavity with an European opening facing right, a quantity limiting device is arranged in the rotating cavity and comprises a rotating shaft fixed in the front end wall and the rear end wall of the rotating cavity, a rotating plate capable of rotating in the rotating cavity is rotatably mounted on the rotating shaft, a supporting block inclined to the upper right is fixed in the left end wall of the rotating cavity, a transfer cavity with an upward opening is arranged on the right side of the lower end wall of the discharging cavity, a belt wheel cavity with an upward opening is arranged in the lower end wall of the transfer cavity, a blocking cavity with a downward opening is arranged in the middle of the upper end wall of the transfer cavity, a rack cavity with a downward opening and positioned on the left side of the gear cavity is arranged in the upper end wall of the blocking cavity, a conveying device is arranged in the rack cavity and comprises a rectangular rack arranged in the rack cavity in a sliding manner, the lower end of the rectangular rack is fixed with a blocking cavity and the lower end of The partitioned barrier plate, the right side in gear chamber is provided with the opening chamber of throwing away up, it is provided with returning charge device to throw away the intracavity, the rear left side in pulley chamber is provided with band pulley drive chamber, the top in band pulley drive chamber is provided with and is located the left drive chamber in rack chamber, the upside in drive chamber is provided with and is located the sprocket drive chamber of working chamber rear side.

Preferably, the feeding device comprises a main motor fixed in the rear end wall of the output cavity, the front side of the main motor is in power connection with an output shaft, an output bevel gear is fixed on the front side of the output shaft, a cam shaft rotatably arranged in the front end wall of the output cavity is fixed on the front side of the output bevel gear, the upper side of the cam shaft is in contact with the lower side of the vibration bushing, and a vibration spring fixed in the upper end wall of the vibration cavity is installed on the upper side of the vibration bushing.

Preferably, the conveying device comprises a transmission bevel gear meshed with the lower side of the output bevel gear, a transmission shaft rotatably arranged in the lower end wall of the output cavity is fixed to the lower side of the transmission bevel gear, the lower side of the transmission shaft extends into the gear cavity and is fixed with a middle bevel gear, an input bevel gear is meshed with the left side of the middle bevel gear, an input shaft rotatably arranged in the left end wall of the gear cavity is fixed to the left side of the input shaft, the left side of the input shaft extends into the driving cavity through the rack cavity and is fixed with a driving transfer bevel gear, a sector gear meshed with the inner side of the rectangular rack and fixed on the input shaft is arranged in the rack cavity, an upper transfer bevel gear is meshed with the upper side of the driving transfer bevel gear, and a lower transfer shaft rotatably arranged in the lower end wall of the driving cavity is fixed to the lower side of the upper transfer bevel gear, the downside of lower transfer shaft extends to pulley drive intracavity and be fixed with down transfer bevel gear, transfer bevel gear down, the meshing of transfer bevel gear's front side has pulley bevel gear down, pulley bevel gear's front side is fixed with rotate set up in the initiative band pulley axle in the pulley drive chamber front end wall, the front side of initiative band pulley axle extends to the pulley intracavity and is fixed with driving pulley, install the belt on the driving pulley, driving pulley's right side is provided with and is located the right side in pulley chamber and passes through the driven pulleys that the belt is connected, driven pulleys fix rotate set up in driven band pulley epaxial in pulley chamber front end wall and rear end wall.

Preferably, the material returning device comprises a throwing bevel gear meshed with the right side of the middle bevel gear, the right side of the throwing bevel gear is fixedly provided with a throwing shaft which is rotatably arranged in the right end wall of the gear cavity, the right side of the throwing shaft is fixedly provided with a throwing rotating shaft which is rotatably arranged in the left end wall of the throwing cavity, the right side of the throwing rotating shaft extends to the inside of the throwing cavity and is fixedly provided with a rotatable throwing wheel, six blades are equidistantly fixed on the outer side surface of the throwing wheel, and the upper side of the throwing cavity is provided with an accumulation opening with an opening facing the right.

Preferably, the quantity-limiting device comprises an elastic cavity which is arranged in the supporting block and has an opening towards the upper right, the elastic cavity is slidably arranged on the lower side of the rotating plate and can support the rotating supporting plate, and an elastic spring fixed in the lower end wall of the elastic cavity is arranged on the lower side of the supporting plate.

Preferably, the lifting device comprises an upper middle rotating shaft fixed on the upper side of the upper middle rotating bevel gear and rotatably arranged in the upper end wall of the driving cavity, the upper side of the upper middle rotating shaft extends to the inside of the chain wheel driving cavity and is fixedly provided with a chain wheel driving bevel gear, the front side of the chain wheel driving bevel gear is meshed with a chain wheel bevel gear, the front side of the chain wheel bevel gear is fixedly provided with a driving chain wheel rotatably arranged in the chain wheel driving cavity, the driving chain wheel is provided with a chain, the upper side of the driving chain wheel is provided with a driven chain wheel positioned on the upper side of the working cavity and connected with the chain through, the driven chain wheel is fixedly arranged on driven shafts in the front end wall and the rear end wall of the working cavity in a rotating manner, the chain is provided with a plurality of feeding hoppers, and the upper side of.

The beneficial effects are that: the material feeding device can enable materials to uniformly enter the working cavity, and can shake and scatter the materials stuck together, so that the hopper cannot be clamped by a large amount of materials stuck together in the subsequent lifting operation, thereby causing damage to internal parts and being beneficial to prolonging the service life of the internal parts; the invention can ensure that the material amount deposited in the working cavity is always at a safe value, prevent the feeding hopper from being blocked in the operation process, and simultaneously can feed the discharged redundant material back to the ground again for secondary feeding operation, thereby reducing the loss of the material in the lifting process, saving the subsequent manual cleaning work of the material deposited in the working cavity and saving the labor force.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

FIG. 1 is a schematic structural view of a bucket elevator with an anti-seize function according to the present invention;

FIG. 2 is a sectional view of the structure taken along the line A-A in FIG. 1;

FIG. 3 is a sectional view of the structure taken along the line B-B in FIG. 1;

FIG. 4 is a sectional view of the structure taken along the line C-C in FIG. 1;

FIG. 5 is a sectional view of the structure taken along the direction D-D in FIG. 1;

fig. 6 is an enlarged view of the rotary plate in fig. 1.

Detailed Description

All of the features disclosed in this specification, or all of the steps in any method or process so disclosed, may be combined in any combination, except combinations of features and/or steps that are mutually exclusive.

The invention will now be described in detail with reference to fig. 1-6, for convenience of description, the following orientations will now be defined: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

The invention relates to a bucket elevator with an anti-blocking function, which comprises an elevator body 10, wherein a feeding cavity 19 with an upward opening is arranged in the elevator body 10, a vibration cavity 55 with an upward opening is arranged in the lower end wall of the feeding cavity 19, a feeding device is arranged in the vibration cavity 55, the feeding device comprises a vibration bushing 51 which is arranged in the vibration cavity 55 in a sliding manner and completely shields the opening at the upper side of a feeding hole 47, a fixed bushing 46 fixed at the opening at the upper side of the feeding hole 47 is arranged below the vibration bushing 51, an output cavity 24 with an upward opening is arranged at the right side of the lower end wall of the vibration cavity 55, a gear cavity 35 is arranged at the lower side of the output cavity 24, a working cavity 17 is arranged at the left side of the feeding cavity 19, a lifting device is arranged in the working cavity 17, and the feeding hole 47 is arranged between the working cavity 17 and the vibration cavity 55, a discharging cavity 50 with a part of upward openings is arranged below the working cavity 17, a rotating cavity 68 with an upward opening is arranged in the left end wall of the discharging cavity 50, a quantity limiting device is arranged in the rotating cavity 68, the quantity limiting device comprises a rotating shaft 74 fixed in the front end wall and the rear end wall of the rotating cavity 68, a rotating plate 69 capable of rotating in the rotating cavity 68 is rotatably arranged on the rotating shaft 74, a supporting block 71 which inclines to the right and the upper is fixed in the left end wall of the rotating cavity 68, a transferring cavity 36 with an upward opening is arranged on the right side of the lower end wall of the discharging cavity 50, a belt wheel cavity 39 with an upward opening is arranged in the lower end wall of the transferring cavity 36, a blocking cavity 57 with a downward opening is arranged in the middle of the upper end wall of the transferring cavity 36, a rack cavity 45 with a downward opening and positioned on the left side of the gear cavity 35 is arranged in the upper end wall of the blocking cavity, the utility model discloses a gear chamber 45, including the rack, be provided with conveyor in rack chamber 45, conveyor including slide set up in rectangular rack 42 in rack chamber 45, rectangular rack 42's lower extreme is fixed with and is located block chamber 57 and the lower extreme can make shift the chamber 36 left and right divided blocking plate 43, the right side of gear chamber 35 is provided with the throw-out chamber 26 that the opening is up, be provided with material returning device in the throw-out chamber 26, the rear left side of pulley chamber 39 is provided with band pulley drive chamber 58, the top of band pulley drive chamber 58 is provided with and is located the left drive chamber 75 in rack chamber 45, the upside of drive chamber 75 is provided with and is located the sprocket drive chamber 66 of working chamber 17 rear side.

Beneficially, the feeding device comprises a main motor 53 fixed in the rear end wall of the output cavity 24, an output shaft 54 is in power connection with the front side of the main motor 53, an output bevel gear 21 is fixed on the front side of the output shaft 54, a cam shaft 27 rotatably arranged in the front end wall of the output cavity 24 is fixed on the front side of the output bevel gear 21, the upper side of the cam shaft 27 is in contact with the lower side of the vibration bushing 51, and a vibration spring 23 fixed in the upper end wall of the vibration cavity 55 is mounted on the upper side of the vibration bushing 51.

Advantageously, the carrying device comprises a transfer bevel gear 20 engaged with the lower side of the output bevel gear 21, the lower side of the transfer bevel gear 20 is fixed with a transfer shaft 29 rotatably disposed in the lower end wall of the output cavity 24, the lower side of the transfer shaft 29 extends into the gear cavity 35 and is fixed with a middle bevel gear 30, the left side of the middle bevel gear 30 is engaged with an input bevel gear 40, the input is fixed with an input shaft 41 rotatably disposed in the left end wall of the gear cavity 35 at the left side of the bevel gear 40, the left side of the input shaft 41 extends into the driving cavity 75 through the rack cavity 45 and is fixed with a driving transfer bevel gear 62, a sector gear 56 engaged with the inner side of the rectangular rack 42 and fixed on the input shaft 41 is disposed in the rack cavity 45, the upper side of the driving transfer bevel gear 62 is engaged with an upper transfer bevel gear 63, a lower middle rotating shaft 61 rotatably disposed in the lower end wall of the driving chamber 75 is fixed to the lower side of the upper middle bevel gear 63, the lower side of the lower intermediate rotating shaft 61 extends into the pulley driving cavity 58 and is fixed with a lower intermediate bevel gear 60, the lower intermediate bevel gear 60, a pulley bevel gear 59 engaged with the front side of the lower intermediate bevel gear 60, a driving pulley shaft 49 rotatably disposed in the front end wall of the pulley driving chamber 58 is fixed to the front side of the pulley bevel gear 59, the front side of the drive pulley shaft 49 extends into the pulley cavity 39 and is fixed with a drive pulley 48, the driving pulley 48 is provided with a belt 44, the right side of the driving pulley 48 is provided with a driven pulley 37 which is positioned at the right side of the pulley cavity 39 and is connected with the belt 44, the driven pulley 37 is fixed to a driven pulley shaft 38 rotatably provided in the front and rear end walls of the pulley chamber 39.

Beneficially, the material returning device comprises a throwing bevel gear 32 meshed with the right side of the intermediate bevel gear 30, a throwing shaft 34 rotatably arranged in the right end wall of the gear cavity 35 is fixed to the right side of the throwing bevel gear 32, a throwing rotating shaft 33 rotatably arranged in the left end wall of the throwing cavity 26 is fixed to the right side of the throwing shaft 34, the right side of the throwing rotating shaft 33 extends into the throwing cavity 26 and is fixedly provided with a rotatable throwing wheel 31, six blades 28 are equidistantly fixed to the outer side surface of the throwing wheel 31, and a stacking hole 52 with an opening facing right is formed in the upper side of the throwing cavity 26, so that redundant materials can be returned to the ground again for secondary feeding operation, loss of the materials in the lifting process is reduced, subsequent manual cleaning operation of the materials deposited in the working cavity is omitted, and labor force is saved.

Advantageously, the quantity limiting device comprises an elastic cavity 73 which is arranged in the supporting block 71 and has an opening facing the upper right, a supporting plate 70 which is slidably arranged on the lower side of the rotating plate 69 and can support the rotating plate 69 to rotate is slidably arranged in the elastic cavity 73, an elastic spring 72 fixed in the lower end wall of the elastic cavity 73 is mounted on the lower side of the supporting plate 70, and the device can enable the quantity of materials deposited in the working cavity to be always at a safe value and prevent the hopper 18 from being stuck in the operation process.

Advantageously, the lifting means comprise an upper intermediate shaft 64 fixed to the upper side of the upper intermediate bevel gear 63 and rotatably disposed in the upper end wall of the drive chamber 75, the upper side of the upper middle rotation shaft 64 extends into the sprocket driving chamber 66 and is fixed with a sprocket driving bevel gear 65, the front side of the sprocket driving bevel gear 65 is engaged with a sprocket bevel gear 67, the front side of the sprocket bevel gear 67 is fixed with a driving sprocket 12 rotatably arranged in the sprocket driving cavity 66, a chain 14 is arranged on the driving chain wheel 12, a driven chain wheel 15 which is positioned on the upper side of the working cavity 17 and is connected with the driving chain wheel 12 through the chain 14 is arranged on the upper side of the driving chain wheel 12, the driven sprocket 15 is fixed to a driven shaft 16 rotatably provided in front and rear end walls of the working chamber 17, a plurality of hoppers 18 are arranged on the chain 14, and a discharge hole 13 with an opening facing left is arranged on the upper side of the left end wall of the working cavity 17.

In the initial state, the rotating plate 69 is in the closed state to separate the working chamber 17 from the discharging chamber 50, the blocking plate 43 does not separate the transferring chamber 36 from the left and right and is located at the rearmost side of the blocking chamber 57, and the sector gear 56 is engaged with the upper side of the inner wall of the rectangular rack 42.

When the work is started, the powdery material to be lifted is poured into the feeding cavity 19, then the main motor 53 is started, so that the output bevel gear 21 is driven to rotate through the output shaft 54, the cam 22 is driven to rotate through the cam shaft 27, the vibration bushing 51 moves upwards, the vibration spring 23 is compressed, and as the cam 22 continues to rotate, the vibration bushing 51 moves downwards under the action of the vibration spring 23, and therefore the reciprocating motion is realized. So that individual powdery materials with larger volume caused by adhesion are scattered, and enter the feed inlet 47 through the fixed bushing 46 and finally deposit on the lower side of the working chamber 17, and the output bevel gear 21 drives the transmission bevel gear 20 to rotate, so that the transmission shaft 29 drives the intermediate bevel gear 30 to rotate, so as to drive the input bevel gear 40 to rotate, so that the input shaft 41 drives the sector gear 56 and the driving transfer bevel gear 62 to rotate, so that the driving transfer bevel gear 62 drives the upper transfer bevel gear 63 to rotate, so as to drive the sprocket driving bevel gear 65 to rotate through the upper transfer shaft 64, so as to drive the sprocket bevel gear 67 to rotate, so as to drive the driving sprocket 12 to rotate, so as to drive the driven sprocket 15 to rotate through the chain 14, so as to start the chain 14 to move, so that the feed hopper 18 excavates the materials deposited on the bottom of the working chamber 17 and throws the excavated materials out through the discharge outlet 13, further realizing the lifting operation of the material, when the material deposited at the bottom of the working chamber 17 is too much, the rotating plate 69 is pressed downwards, so that the supporting plate 70 slides downwards, the elastic spring 72 is compressed, the rotating plate 69 rotates downwards, the material deposited at the bottom of the working chamber 17 enters the discharging chamber 50, when the weight of the material at the bottom of the working chamber 17 is reduced to a certain degree, the supporting plate 70 moves upwards under the action of the elastic spring 72, so that the rotating plate 69 returns to the initial position, the material entering the discharging chamber 50 enters the transfer chamber 36 and is accumulated on the belt 44 under the action of the self gravity, meanwhile, the upper intermediate bevel gear 63 drives the lower intermediate bevel gear 60 to rotate through the lower intermediate shaft 61, so as to drive the belt bevel gear 59 to rotate, so as to drive the driving belt wheel 48 to rotate through the driving belt wheel shaft 49, so as to drive the driven belt wheel 37 to rotate through the belt 44, and then the belt 44 moves to move the material to the right, and simultaneously the sector gear 56 drives the rectangular rack 42 to move forward, so that the blocking plate 43 moves forward into the transfer chamber 36 and blocks the material from moving forward, and as the sector gear 56 rotates continuously, the sector gear 56 disengages from the upper side of the inner wall of the rectangular rack 42 and engages with the lower side of the inner wall, so that the blocking plate 43 moves backward to the initial position, and thus the material amount in the throw-out chamber 26 can be controlled, and simultaneously the middle bevel gear 30 drives the throw-out bevel gear 32 to rotate, so that the throw-out shaft 33 is driven by the throw-out shaft 34 to rotate, and then the throw-out wheel 31 is driven to rotate, and finally the blades 28 are rotated, so that the material in the throw-out chamber 26 is thrown out from the accumulation port 52, and then the material is poured into the feeding chamber 19 again.

The above description is only an embodiment of the invention, but the scope of the invention is not limited thereto, and any changes or substitutions that are not thought of through the inventive work should be included in the scope of the invention. Therefore, the protection scope of the invention should be subject to the protection scope defined by the claims.

Claims

1. The utility model provides a bucket elevator who possesses anti-sticking function, includes the organism, its characterized in that: a feeding cavity with an upward opening is arranged in the machine body, a vibration cavity with an upward opening is arranged in the lower end wall of the feeding cavity, a feeding device is arranged in the vibration cavity and comprises a vibration bushing which is arranged in the vibration cavity in a sliding manner and completely shields the upper opening of the feeding hole, a fixed bushing fixed at the upper opening of the feeding hole is arranged below the vibration bushing, an output cavity with an upward opening is arranged on the right side of the lower end wall of the vibration cavity, a gear cavity is arranged below the output cavity, a working cavity is arranged on the left side of the feeding cavity, a lifting device is arranged in the working cavity, a feeding hole is arranged between the working cavity and the vibration cavity, a discharging cavity with a part of upward opening is arranged below the working cavity, and a rotating cavity with an European opening facing right is arranged in the left end wall of the discharging cavity, the device comprises a rotating cavity, a rotating cavity is arranged in the rotating cavity, a limiting device is arranged in the rotating cavity and comprises a rotating shaft fixed in the front end wall and the rear end wall of the rotating cavity, a rotating plate capable of rotating in the rotating cavity is rotatably mounted on the rotating shaft, a supporting block inclined to the upper right is fixed in the left end wall of the rotating cavity, a transfer cavity with an upward opening is arranged on the right side of the lower end wall of the discharging cavity, a belt wheel cavity with an upward opening is arranged in the lower end wall of the transfer cavity, a blocking cavity with a downward opening is arranged in the middle of the upper end wall of the transfer cavity, a rack cavity with a downward opening and positioned on the left side of the rack cavity is arranged in the upper end wall of the blocking cavity, a conveying device is arranged in the rack cavity and comprises a rectangular rack slidably arranged in the rack cavity, and a blocking plate which is positioned in the blocking cavity and has a lower end, the right side in gear chamber is provided with the opening chamber of throwing away up, it is provided with returning charge device to throw away the intracavity, the rear left side in pulley chamber is provided with band pulley drive chamber, the top in band pulley drive chamber is provided with and is located the left drive chamber in rack chamber, the upside in drive chamber is provided with and is located the sprocket drive chamber of working chamber rear side.

2. The bucket elevator with anti-seize function as claimed in claim 1, wherein: the feeding device comprises a main motor fixed in the rear end wall of the output cavity, the front side of the main motor is in power connection with an output shaft, an output bevel gear is fixed to the front side of the output shaft, a cam shaft rotatably arranged in the front end wall of the output cavity is fixed to the front side of the output bevel gear, the upper side of the cam shaft is in contact with the lower side of the vibration bushing, and a vibration spring fixed in the upper end wall of the vibration cavity is installed on the upper side of the vibration bushing.

3. The bucket elevator with anti-seize function as claimed in claim 1, wherein: the conveying device comprises a transmission bevel gear meshed with the lower side of the output bevel gear, a transmission shaft rotatably arranged in the lower end wall of the output cavity is fixed to the lower side of the transmission bevel gear, a middle bevel gear is fixed to the lower side of the transmission shaft, an input bevel gear is meshed with the left side of the middle bevel gear, an input shaft rotatably arranged in the left end wall of the gear cavity is fixed to the left side of the input shaft, the left side of the input shaft penetrates through the rack cavity to extend into the driving cavity and is fixedly provided with a driving transfer bevel gear, a sector gear meshed with the inner side of the rectangular rack and fixedly arranged on the input shaft is arranged in the rack cavity, an upper transfer bevel gear is meshed with the upper side of the driving transfer bevel gear, and a lower transfer shaft rotatably arranged in the lower end wall of the driving cavity is fixed to the lower side of the upper transfer bevel gear, the downside of lower transfer shaft extends to pulley drive intracavity and be fixed with down transfer bevel gear, transfer bevel gear down, the meshing of transfer bevel gear's front side has pulley bevel gear down, pulley bevel gear's front side is fixed with rotate set up in the initiative band pulley axle in the pulley drive chamber front end wall, the front side of initiative band pulley axle extends to the pulley intracavity and is fixed with driving pulley, install the belt on the driving pulley, driving pulley's right side is provided with and is located the right side in pulley chamber and passes through the driven pulleys that the belt is connected, driven pulleys fix rotate set up in driven band pulley epaxial in pulley chamber front end wall and rear end wall.

4. The bucket elevator with anti-seize function as claimed in claim 1, wherein: the material returning device comprises a throwing bevel gear meshed with the right side of the middle bevel gear, the right side of the throwing bevel gear is fixed with a rotating shaft arranged in a throwing shaft in the right end wall of the gear cavity, the right side of the throwing shaft is fixed with a rotating shaft arranged in a throwing shaft in the left end wall of the throwing cavity, the right side of the throwing shaft extends to the throwing cavity and is fixed with a rotatable throwing wheel, six blades are fixed on the outer side surface of the throwing wheel in equal intervals, and an accumulation opening with an opening facing the right is formed in the upper side of the throwing cavity.

5. The bucket elevator with anti-seize function as claimed in claim 1, wherein: the quantity-limiting device comprises an elastic cavity which is arranged in the supporting block and is provided with an opening towards the upper right, the elastic cavity is slidably arranged in the rotating plate and can support the rotating plate, the lower side of the rotating plate is provided with an elastic spring, and the elastic spring is fixed in the lower end wall of the elastic cavity.

6. The bucket elevator with anti-seize function as claimed in claim 1, wherein: the lifting device comprises an upper transfer bevel gear, a middle transfer bevel gear, a chain wheel drive bevel gear, a chain wheel bevel gear, a driving chain wheel, a driven chain wheel, a plurality of material hoppers and a discharge port, wherein the upper side of the upper transfer bevel gear is fixed on the upper transfer shaft in the upper end wall of the drive cavity in a rotating mode, the upper side of the upper transfer bevel gear extends to the inside of the chain wheel drive cavity and is fixedly provided with the chain wheel drive bevel gear, the front side of the chain wheel drive bevel gear is meshed with the chain wheel bevel gear, the front side of the chain wheel bevel gear is fixedly provided with the driving chain wheel which is rotatably arranged in the chain wheel drive cavity, the driving chain wheel is provided with a chain, the upper side of the driving chain wheel is provided with the driven chain wheel which is located on the upper side.