CN112247589A

CN112247589A - Part screening and secondary utilization's processing equipment

Info

Publication number: CN112247589A
Application number: CN202011144776.2A
Authority: CN
Inventors: 史立号
Original assignee: Taizhou Zero Motion Machinery Technology Co ltd
Current assignee: Taizhou Zero Motion Machinery Technology Co ltd
Priority date: 2020-10-23
Filing date: 2020-10-23
Publication date: 2021-01-22

Abstract

The invention discloses a processing device for screening and secondarily utilizing parts, which comprises a grinding machine, wherein a processing cavity which is communicated with the front and the back is arranged in the grinding machine, the left side in the treatment cavity is provided with a mechanical grabbing device, unqualified parts are firstly screened out and clamped by the mechanical grabbing device in a mode of screening the processed parts and then carrying out secondary processing, and then redundant burr corners are cut by the cutting device, further polishing by a polishing device to obtain qualified products, thereby reducing the reject ratio of the products, reducing the waste of resources, meanwhile, the device can automatically detect the quality of parts, reduce manual intervention, improve the working efficiency, reduce the cost, save time and labor, effectively optimize the part processing flow, reduce the number of defective products, further shorten the production period, and is economical, environment-friendly, energy-saving and efficient.

Description

Part screening and secondary utilization's processing equipment

Technical Field

The invention relates to the technical field of manipulators, in particular to a processing device for screening and secondarily utilizing parts.

Background

In the process of producing and manufacturing parts, unqualified part defective products can be produced frequently, the production efficiency is further reduced, the defective products are generally difficult to process again by manpower, the processing precision is difficult to grasp, meanwhile, the secondary processing of the part defective products is performed manually, time and labor are wasted, the defective parts cannot be optimized in large batch, the efficiency is not high, the defective parts are difficult to primarily screen by manual processing, and the processed parts cannot be rapidly screened and distinguished.

Disclosure of Invention

In order to solve the problems, the processing equipment for screening and recycling parts is designed in the embodiment, the processing equipment for screening and recycling parts comprises a grinding machine, a processing cavity which is communicated with the front and the back is arranged in the grinding machine, a mechanical grabbing device is arranged on the left side in the processing cavity and comprises a slider cavity communicated with the upper side of the processing cavity, a slider capable of moving left and right is arranged in the slider cavity, a clamping groove communicated with the processing cavity is arranged on the inner lower side of the slider, a clamping block capable of moving front and back is arranged in the clamping groove, a fixing block is fixedly arranged on the lower end face of the clamping block, a hydraulic cavity is fixedly arranged on the lower end face of the fixing block, a hydraulic rod capable of extending downwards is arranged in the hydraulic cavity, a grabbing block is fixedly arranged on the lower end face of the hydraulic rod, a grabbing spring cavity is arranged in the grabbing block, and a, the front side and the rear side in the grabbing spring cavity are symmetrically provided with grabbing cavity moving blocks capable of moving back and forth, the grabbing cavity moving blocks can clamp a machined part, grabbing cavity springs are fixedly connected between one side, close to each other, of the grabbing cavity moving blocks and the front end face and the rear end face of the grabbing cavity electromagnet respectively, the left lower side of the processing cavity is provided with a part processing device, the part processing device comprises a processing cavity communicated with the lower side of the processing cavity and provided with a left opening, the upper side in the processing cavity is rotatably provided with a cutting blade, the cutting blade can cut off part corners clamped by the grabbing cavity moving blocks, the right side of the processing cavity is provided with a polishing device, the polishing device comprises a grinding tool rotatably arranged on the lower side in the processing cavity, the grinding tool can polish the end faces of the machined part, the lower side of the processing cavity is communicated with, the fixed baffle of blowing that is equipped with in chamber right side of blowing, the chamber left side intercommunication of blowing is equipped with deposits the chamber, the chamber right side intercommunication of blowing is equipped with the flabellum chamber, the rotation of flabellum intracavity is equipped with the flabellum, the flabellum can with iron fillings in the chamber of blowing are insufflated deposit the intracavity and collect.

Preferably, a driving cavity is arranged on the rear side of the fan blade cavity, a driving shaft is arranged in the driving cavity in a rotating mode, the outer circular surface of the left end of the driving shaft extends to the position, fixed to the axis of the fan blade, of the fan blade cavity, a driving bevel gear fixed to the outer circular surface of the driving shaft is arranged in the driving cavity, a driven bevel gear is arranged in the driving cavity in a rotating mode, the driven bevel gear is meshed with the driving bevel gear, and a power motor right facing the axis of the driving shaft is fixedly arranged in the right wall of the driving cavity and is in power connection with the driving bevel.

Preferably, a driven cavity is arranged on the upper side of the driving cavity, a driven shaft is fixedly arranged at the axis position of the driven bevel gear, a first transmission bevel gear is fixedly arranged on the outer circular surface at the upper end of the driven shaft and extends into the driven cavity, a second transmission bevel gear is rotatably arranged on the upper side in the driven cavity and is meshed with the first transmission bevel gear, a first transmission shaft is fixedly arranged at the axis position of the second transmission bevel gear, a transmission cavity is arranged on the left side of the driven cavity, a third transmission bevel gear is fixedly arranged on the outer circular surface at the left end of the first transmission shaft and extends into the transmission cavity, a fourth transmission bevel gear is rotatably arranged on the inner upper side of the third transmission bevel gear and is meshed with the third transmission bevel gear, a polishing shaft is fixedly arranged at the axis position of the fourth transmission bevel gear, the outer circular surface at the upper end of the polishing shaft extends into the processing cavity and is fixedly connected with the, the outer circle surface of the left end of the first transmission shaft extends into the treatment cavity and is fixedly connected with the axis of the cutting blade.

Preferably, the right side of the driving cavity is provided with a rotating cavity, the outer circular surface of the right end of the driving shaft extends to the rotating cavity, a rotating bevel gear is fixedly arranged in the rotating cavity, a fifth transmission bevel gear is rotatably arranged on the upper side of the rotating cavity, the fifth transmission bevel gear is meshed with the rotating bevel gear, and a sliding sleeve shaft is fixedly arranged at the axis of the fifth transmission bevel gear.

But preferably, it is equipped with the slip sleeve chamber to rotate the chamber upside, slip sleeve shaft upper end outer disc extends to slip sleeve intracavity rotates and is equipped with sliding sleeve, the sliding sleeve intracavity is equipped with and is fixed in the slip sleeve bevel gear of the outer disc of sliding sleeve, slip sleeve chamber right side intercommunication is equipped with the slip spring chamber, the fixed slip chamber electro-magnet that is equipped with of slip spring intracavity upside, slip spring intracavity downside is equipped with the slip chamber movable block that can reciprocate, the slip chamber movable block with fixedly connected with slip chamber spring between the slip chamber electro-magnet, slip sleeve chamber left side is rotated and is equipped with sixth transmission bevel gear, sixth transmission bevel gear can with the meshing of slip sleeve bevel gear, sixth transmission bevel gear axle center rigidity is equipped with the removal sleeve shaft.

Preferably, the sliding sleeve chamber upside is equipped with and rotates the sleeve chamber, the outer disc in sliding sleeve epaxial end extends to it is equipped with seventh transmission bevel gear to rotate the fixed seventh transmission bevel gear that is equipped with of sleeve intracavity, it is equipped with and rotates the sleeve to rotate sleeve intracavity left side rotation, it is equipped with the rotation sleeve to rotate the outer disc of sleeve right-hand member, it is fixed in to rotate the sleeve intracavity the rotation sleeve bevel gear of the outer disc of rotation sleeve, it is equipped with the rotating spring chamber to rotate sleeve chamber upside intercommunication, the fixed chamber electro-magnet that rotates that is equipped with in rotating spring intracavity right side, it is equipped with the rotation chamber movable block that can remove to rotate spring intracavity left side, rotate the chamber movable block with it rotates the chamber spring to rotate fixedly connected.

Preferably, a movable sleeve cavity is formed in the sliding block, the outer circular surface of the left end of the movable sleeve shaft extends to the movable sleeve cavity, a movable sleeve is arranged in the movable sleeve cavity in a rotating mode, a straight gear fixed to the outer circular surface of the movable sleeve is arranged in the movable sleeve cavity, a gear rack is fixedly arranged on the upper end face of the clamping block, the gear rack is meshed with the straight gear, and the fixed block is internally fixedly provided with a hydraulic pump right opposite to the axis of the hydraulic cavity and is in power connection with the hydraulic pump.

Preferably, the processing chamber upside is equipped with the conveyer belt chamber, the symmetry just rotates around the conveyer belt intracavity and is equipped with the conveyer belt axle, the conveyer belt intracavity is equipped with and is fixed in the rear side the first conveyer belt wheel of the outer disc of conveyer belt axle, the conveyer belt intracavity is equipped with and is fixed in the front side the second conveyer belt wheel of the outer disc of conveyer belt axle, the second conveyer belt wheel with around having the conveyer belt between the first conveyer belt wheel, the fixed transmission motor and the power connection that are equipped with just to the rear side of conveyer belt intracavity left wall conveyer belt axle center.

Preferably, a door panel cavity is communicated with the left side of the storage cavity, and a door panel capable of being turned leftwards is arranged in the door panel cavity.

The invention has the beneficial effects that: according to the invention, by the mode of firstly screening the machined parts and then carrying out secondary machining, unqualified parts are screened out and clamped by the mechanical grabbing device, redundant burr corners are cut by the cutting device, and then the grinding device is used for grinding, so that qualified products are obtained, the reject ratio of the products is reduced, and the waste of resources is reduced.

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.

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a schematic view of the overall structure of a part screening and secondary utilization processing device of the present invention;

FIG. 2 is a schematic view of the structure A-A of FIG. 1;

FIG. 3 is an enlarged schematic view of B of FIG. 1;

fig. 4 is an enlarged schematic view of C in fig. 2.

Detailed Description

The invention will now be described in detail with reference to fig. 1-4, wherein for ease of description the orientations described hereinafter are now defined as follows: 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 processing equipment for screening and secondarily utilizing the parts comprises a grinding machine 11, a processing cavity 42 which is through from front to back is arranged in the grinding machine 11, a mechanical gripping device 101 is arranged on the left side in the processing cavity 42, the mechanical gripping device 101 comprises a slide block cavity 52 which is communicated with the upper side of the processing cavity 42, a slide block 51 which can move left and right is arranged in the slide block cavity 52, a clamping groove 48 which is communicated with the processing cavity 42 is arranged on the inner lower side of the slide block 51, a clamping block 49 which can move front and back is arranged in the clamping groove 48, a fixing block 84 is fixedly arranged on the lower end surface of the clamping block 49, a hydraulic cavity 77 is fixedly arranged on the lower end surface of the fixing block 84, a hydraulic rod 83 which can extend downwards is arranged in the hydraulic cavity 77, a gripping block 78 is fixedly arranged on the lower end surface of the hydraulic rod 83, a gripping spring cavity 82 is arranged in the gripping block, the front side and the rear side in the grabbing spring cavity 82 are symmetrically provided with grabbing cavity moving blocks 12 capable of moving back and forth, the grabbing cavity moving blocks 12 can clamp a machined part, the grabbing cavity moving blocks 12 are fixedly connected between one side, close to each other, of each grabbing cavity moving block 12 and the front end face and the rear end face of each grabbing cavity electromagnet 80 respectively, the left lower side of the processing cavity 42 is provided with a part processing device 102, the part processing device 102 comprises a processing cavity 17 which is communicated with the lower side of the processing cavity 42 and is provided with a left opening, the upper side in the processing cavity 17 is rotatably provided with a cutting blade 13, the cutting blade 13 can cut off the corner of the part clamped by the grabbing cavity moving blocks 12, the right side of the processing cavity 17 is provided with a polishing device 103, the polishing device 103 comprises a grinding tool 46 which is rotatably arranged on the inner lower side of the processing cavity, processing chamber 42 downside intercommunication is equipped with collects chamber 21, it is equipped with the chamber 24 that blows to collect chamber 21 downside intercommunication, it is fixed to be equipped with on 24 right sides in the chamber 25 that blows to blow, it is equipped with and deposits chamber 20 to blow 24 left sides intercommunication in chamber, it is equipped with fan blade chamber 26 to blow 24 right sides intercommunication in chamber, the internal rotation in fan blade chamber 26 is equipped with flabellum 27, flabellum 27 can with blow the iron fillings in the chamber 24 and blow in deposit and collect in the chamber 20.

Beneficially, a driving cavity 29 is arranged on the rear side of the fan blade cavity 26, a driving shaft 28 is rotatably arranged in the driving cavity 29, an outer circular surface of the left end of the driving shaft 28 extends into the fan blade cavity 26 and is fixedly connected with the axis of the fan blade 27, a driving bevel gear 30 fixed to the outer circular surface of the driving shaft 28 is arranged in the driving cavity 29, a driven bevel gear 36 is rotatably arranged on the inner upper side of the driving cavity 29, the driven bevel gear 36 is meshed with the driving bevel gear 30, and a power motor 31 facing the axis of the driving shaft 28 is fixedly arranged in the right wall of the driving cavity 29 and is in power connection with the driving bevel gear.

Beneficially, a driven cavity 40 is arranged on the upper side of the driving cavity 29, a driven shaft 37 is fixedly arranged on the axis position of the driven bevel gear 36, a first transmission bevel gear 38 is fixedly arranged on the outer circumferential surface of the upper end of the driven shaft 37 and extends into the driven cavity 40, a second transmission bevel gear 39 is rotatably arranged on the upper side of the driven cavity 40 and is meshed with the first transmission bevel gear 38, a first transmission shaft 41 is fixedly arranged on the axis position of the second transmission bevel gear 39, a transmission cavity 23 is arranged on the left side of the driven cavity 40, a third transmission bevel gear 22 is fixedly arranged on the outer circumferential surface of the left end of the first transmission shaft 41 and extends into the transmission cavity 23, a fourth transmission bevel gear 43 is rotatably arranged on the inner upper side of the third transmission bevel gear 22 and is meshed with the fourth transmission bevel gear 43, a polishing shaft 44 is fixedly arranged on the axis position of the fourth transmission bevel gear 43, the outer circular surface of the upper end of the grinding shaft 44 extends into the processing cavity 42 and is fixedly connected with the axis position of the grinding tool 46, and the outer circular surface of the left end of the first transmission shaft 41 extends into the processing cavity 17 and is fixedly connected with the axis position of the cutting blade 13.

Beneficially, a rotating cavity 32 is arranged at the right side of the driving cavity 29, a rotating bevel gear 33 is fixedly arranged in the rotating cavity 32 and extends from the outer circumferential surface of the right end of the driving shaft 28, a fifth transmission bevel gear 34 is rotatably arranged at the upper side in the rotating cavity 32, the fifth transmission bevel gear 34 is meshed with the rotating bevel gear 33, and a sliding sleeve shaft 35 is fixedly arranged at the axial center position of the fifth transmission bevel gear 34.

Advantageously, a sliding sleeve cavity 63 is formed on the upper side of the rotating cavity 32, the outer circular surface of the upper end of the sliding sleeve shaft 35 extends to the sliding sleeve cavity 63, a sliding sleeve 65 is rotatably formed in the sliding sleeve cavity 63, a sliding sleeve bevel gear 64 fixed on the outer circular surface of the sliding sleeve 65 is arranged in the sliding sleeve cavity 63, a sliding spring cavity 67 is communicated with the right side of the sliding sleeve cavity 63, a sliding cavity electromagnet 69 is fixedly arranged on the inner upper side of the sliding spring cavity 67, a sliding cavity moving block 66 capable of moving up and down is arranged at the inner lower side of the sliding spring cavity 67, a sliding cavity spring 68 is fixedly connected between the sliding cavity moving block 66 and the sliding cavity electromagnet 69, a sixth transmission bevel gear 62 is rotatably arranged on the left side of the sliding sleeve cavity 63, the sixth transmission bevel gear 62 can be meshed with the sliding sleeve bevel gear 64, and a movable sleeve shaft 47 is fixedly arranged at the axis position of the sixth transmission bevel gear 62.

Beneficially, a rotating sleeve cavity 71 is arranged on the upper side of the sliding sleeve cavity 63, a seventh transmission bevel gear 70 is fixedly arranged in the rotating sleeve cavity 71 and extends from the outer circular surface of the upper end of the sliding sleeve shaft 35 to the inner side of the rotating sleeve cavity 71, a rotating sleeve shaft 45 is rotatably arranged on the left side in the rotating sleeve cavity 71, a rotating sleeve 60 is rotatably arranged on the outer circular surface of the right end of the rotating sleeve shaft 45, a rotating sleeve bevel gear 61 fixed on the outer circular surface of the rotating sleeve 60 is arranged in the rotating sleeve cavity 71, a rotating spring cavity 74 is communicated with the upper side of the rotating sleeve cavity 71, a rotating cavity electromagnet 72 is fixedly arranged on the right side in the rotating spring cavity 74, a rotating moving block cavity 75 capable of moving left and right is arranged on the left side in the rotating spring cavity 74, and a rotating cavity spring 73 is fixedly connected between the rotating.

Beneficially, a moving sleeve cavity 54 is formed in the sliding block 51, an outer circular surface of the left end of the moving sleeve shaft 47 extends to the moving sleeve cavity 54, a moving sleeve 55 is rotatably arranged in the moving sleeve cavity 54, a straight gear 53 fixed to the outer circular surface of the moving sleeve 55 is arranged in the moving sleeve cavity 54, a gear rack 50 is fixedly arranged on the upper end surface of the fixture block 49, the gear rack 50 is meshed with the straight gear 53, and a hydraulic pump 76 directly facing the axis of the hydraulic cavity 77 is fixedly arranged in the fixed block 84 and is in power connection with the hydraulic pump.

Beneficially, a conveyor belt cavity 16 is arranged on the upper side of the treatment cavity 17, a conveyor belt shaft 14 is symmetrically and rotatably arranged in the conveyor belt cavity 16 in a front-back manner, a first conveyor belt wheel 57 fixed on the outer circumferential surface of the conveyor belt shaft 14 on the rear side is arranged in the conveyor belt cavity 16, a second conveyor belt wheel 58 fixed on the outer circumferential surface of the conveyor belt shaft 14 on the front side is arranged in the conveyor belt cavity 16, a conveyor belt 56 is wound between the second conveyor belt wheel 58 and the first conveyor belt wheel 57, and a transmission motor 15 facing the shaft center of the conveyor belt shaft 14 on the rear side is fixedly arranged on the left wall in the conveyor belt cavity 16 and is in power connection with the transmission motor.

Advantageously, a door panel cavity 18 is arranged on the left side of the storage cavity 20 in a communication mode, and a door panel 19 capable of being turned leftwards is arranged in the door panel cavity 18.

The use steps herein are described in detail below with reference to fig. 1-4: in the initial working state, the gripping chamber moving block 12 is at the upper limit position, the slider 51 is at the left limit position, and the rotating chamber moving block 75 is at the left limit position.

In operation, a part to be processed again is placed on the rear end face of the conveyor belt 56, the transmission motor 15 is started, the rear-side conveyor belt shaft 14 is driven to rotate slowly, the first conveyor belt wheel 57 is driven to rotate, the second conveyor belt wheel 58 wound by the conveyor belt 56 is driven to rotate, the front-side conveyor belt shaft 14 is driven to rotate, the conveyor belt 56 drives the processed part to move slowly forward, at this time, the hydraulic pump 76 is started, the hydraulic rod 83 is driven to move downward, the grabbing block 78 is driven to move downward and face the part to be processed, the grabbing chamber electromagnet 80 is started, the front and rear grabbing chamber moving blocks 12 are driven to approach each other, the part to be processed is clamped, the power motor 31 is started, the drive shaft 28 is driven to rotate, the rotary bevel gear 33 is driven to rotate, and the fifth transmission bevel gear 34 meshed with the rotary bevel gear is driven to rotate, thereby driving the sliding sleeve shaft 35 to rotate, at this time, the rotating chamber electromagnet 72 is started, and further the rotating chamber moving block 75 is driven to move rightwards, thereby driving the rotating sleeve 60 to move rightwards, further the rotating sleeve bevel gear 61 is meshed with the seventh transmission bevel gear 70, at this time, the sliding sleeve shaft 35 drives the seventh transmission bevel gear 70 to rotate, further the rotating sleeve bevel gear 61 meshed therewith is driven to rotate, further the rotating sleeve 60 is driven to rotate, thereby the rotating sleeve shaft 45 is driven to rotate, and the slide block 51 connected through the screw thread is driven to move rightwards, further the grabbing block 78 is driven to move rightwards, thereby the processed part is driven to move rightwards, meanwhile, when the edge of the part needs to be cut, the driving shaft 28 drives the driving bevel gear 30 to rotate, further the driven bevel gear 36 meshed therewith is driven to rotate, thereby the driven shaft 37 is driven, thereby driving the second transmission bevel gear 39 engaged with the second transmission bevel gear to rotate, further driving the first transmission shaft 41 to rotate, further driving the cutting blade 13 to rotate, further starting the hydraulic pump 76, lowering the hydraulic rod 83 and cutting the edge of the processed part, after the cutting is finished, the grabbing block 78 continues to move rightwards, at this time, the first transmission shaft 41 drives the third transmission bevel gear 22 to rotate, further driving the fourth transmission bevel gear 43 engaged with the third transmission bevel gear to rotate, further driving the grinding shaft 44 to rotate, further driving the grinding tool 46 to rotate, at this time, the grinding tool 46 grinds the processed part and removes burrs, at the same time, the sliding chamber electromagnet 69 is started, further driving the sliding chamber moving block 66 to move upwards, thereby driving the sliding sleeve 65 to move upwards, thereby engaging the sliding sleeve bevel gear 64 with the sixth transmission bevel gear 62, at this time, the sliding sleeve shaft 35 drives the sliding sleeve 65 to, and then drive sliding sleeve bevel gear 64 and rotate to drive the sixth transmission bevel gear 62 of meshing with it and rotate, and then drive moving sleeve shaft 47 and rotate, thereby drive moving sleeve 55 and rotate, and then drive spur gear 53 and rotate, and thus drive rack and pinion 50 with it meshing and move forward, and then drive and snatch piece 78 and move forward, and then make grinding apparatus 46 carry out all-round polishing to the processing part, and driving shaft 28 drives flabellum 27 and rotates this moment, and then blows the iron fillings in the chamber 24 that will blow into and deposit and store in the chamber 20.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims

1. The utility model provides a processing equipment of part screening and reutilization, includes the polisher, its characterized in that: a treatment cavity which is communicated from front to back is arranged in the polisher, a mechanical grabbing device is arranged on the left side in the treatment cavity and comprises a slider cavity communicated with the upper side of the treatment cavity, a slider capable of moving left and right is arranged in the slider cavity, a clamping groove communicated with the treatment cavity is arranged on the inner lower side of the slider, a clamping block capable of moving back and forth is arranged in the clamping groove, a fixing block is fixedly arranged on the lower end face of the clamping block, a hydraulic cavity is fixedly arranged on the lower end face of the fixing block, a hydraulic rod capable of extending downwards is arranged in the hydraulic cavity, a grabbing block is fixedly arranged on the lower end face of the hydraulic rod, a grabbing spring cavity is arranged in the grabbing block, a grabbing cavity electromagnet is fixedly arranged at the middle position in the grabbing spring cavity, grabbing cavity moving blocks capable of moving back and forth are symmetrically arranged, a grabbing cavity spring is fixedly connected between one side, close to each other, of the grabbing cavity moving block and the front end face and the rear end face of the grabbing cavity electromagnet respectively, a part processing device is arranged on the lower left side of the processing cavity and comprises a processing cavity communicated with the lower side of the processing cavity and provided with a left opening, a cutting blade is rotatably arranged on the upper side in the processing cavity and can cut off the corner of a part clamped by the grabbing cavity moving block, a polishing device is arranged on the right side of the processing cavity and comprises a grinding tool rotatably arranged on the lower side in the processing cavity, the grinding tool can grind the end face of a processed part, a collecting cavity is communicated with the lower side of the processing cavity, a blowing cavity is communicated with the lower side of the collecting cavity, a blowing baffle is fixedly arranged on the right side of the blowing cavity, a storage cavity is communicated with the left side of the blowing cavity, the fan blade intracavity rotates and is equipped with the flabellum, the flabellum can with the iron fillings of blowing intracavity insufflate deposit the intracavity and collect.

2. The parts screening and secondary processing apparatus as claimed in claim 1, wherein: the fan blade is characterized in that a driving cavity is formed in the rear side of the fan blade cavity, a driving shaft is arranged in the driving cavity in a rotating mode, the outer circular surface of the left end of the driving shaft extends to the position, fixedly connected with the axis of the fan blade, of the fan blade cavity, a driving bevel gear fixed to the outer circular surface of the driving shaft is arranged in the driving cavity, a driven bevel gear is arranged in the driving cavity in a rotating mode, the driven bevel gear is meshed with the driving bevel gear, and a power motor right opposite to the axis of the driving shaft is fixedly arranged in the right wall of the.

3. The parts screening and secondary processing apparatus as claimed in claim 2, wherein: a driven cavity is arranged on the upper side of the driving cavity, a driven shaft is fixedly arranged at the axis position of the driven bevel gear, a first transmission bevel gear is fixedly arranged on the outer circular surface at the upper end of the driven shaft and extends into the driven cavity, a second transmission bevel gear is rotatably arranged on the upper side in the driven cavity and is meshed with the first transmission bevel gear, a first transmission shaft is fixedly arranged at the axis position of the second transmission bevel gear, a transmission cavity is arranged on the left side of the driven cavity, a third transmission bevel gear is fixedly arranged on the outer circular surface at the left end of the first transmission shaft and extends into the transmission cavity, a fourth transmission bevel gear is rotatably arranged on the inner upper side of the third transmission bevel gear and is meshed with the third transmission bevel gear, a polishing shaft is fixedly arranged at the axis position of the fourth transmission bevel gear, and the outer circular surface at the upper end of the polishing shaft extends into the treatment cavity and is fixedly, the outer circle surface of the left end of the first transmission shaft extends into the treatment cavity and is fixedly connected with the axis of the cutting blade.

4. The parts screening and secondary processing apparatus as claimed in claim 2, wherein: the right side of the driving cavity is provided with a rotating cavity, the outer circular surface of the right end of the driving shaft extends to the rotating cavity, a rotating bevel gear is fixedly arranged in the rotating cavity, a fifth transmission bevel gear is rotatably arranged on the upper side of the rotating cavity and meshed with the rotating bevel gear, and a sliding sleeve shaft is fixedly arranged at the axis position of the fifth transmission bevel gear.

5. The parts screening and secondary processing apparatus as claimed in claim 4, wherein: rotate the chamber upside and be equipped with the sliding sleeve chamber, the outer disc of sliding sleeve epaxial end extends to the sliding sleeve intracavity rotates and is equipped with sliding sleeve, the sliding sleeve intracavity is equipped with and is fixed in the sliding sleeve bevel gear of the outer disc of sliding sleeve, sliding sleeve chamber right side intercommunication is equipped with the sliding spring chamber, the fixed sliding chamber electro-magnet that is equipped with of sliding spring intracavity upside, sliding spring intracavity downside is equipped with the sliding chamber movable block that can reciprocate, the sliding chamber movable block with fixedly connected with sliding chamber spring between the sliding chamber electro-magnet, sliding sleeve chamber left side is rotated and is equipped with sixth transmission bevel gear, sixth transmission bevel gear can with sliding sleeve bevel gear meshing, sixth transmission bevel gear axle center rigidity is equipped with the removal sleeve axle.

6. The parts screening and secondary processing apparatus as claimed in claim 5, wherein: sliding sleeve chamber upside is equipped with rotates the sleeve chamber, the outer disc in sliding sleeve epaxial end extends to rotate the fixed seventh transmission bevel gear that is equipped with of sleeve intracavity, it is equipped with the rotation sleeve axle to rotate sleeve intracavity left side rotation, it is equipped with the rotation sleeve to rotate the outer disc of sleeve axle right-hand member and rotate the sleeve, it is fixed in to rotate the sleeve intracavity be equipped with the rotation sleeve bevel gear that rotates the outer disc of sleeve, it is equipped with the rotation spring chamber to rotate sleeve chamber upside intercommunication, the fixed rotation chamber electro-magnet that is equipped with in rotation spring intracavity right side, rotation spring intracavity left side is equipped with the rotation chamber movable block that removes about can, rotate the chamber movable block with it rotates the chamber spring to rotate fixedly connected with between the.

7. The parts screening and secondary processing apparatus as claimed in claim 1, wherein: the hydraulic cylinder is characterized in that a movable sleeve cavity is formed in the sliding block, the outer circular surface of the left end of the movable sleeve shaft extends to the movable sleeve cavity, a movable sleeve is arranged in the movable sleeve cavity in a rotating mode, a straight gear fixed to the outer circular surface of the movable sleeve is arranged in the movable sleeve cavity, a gear rack is fixedly arranged on the upper end face of the clamping block and meshed with the straight gear, and a hydraulic pump right opposite to the axis of the hydraulic cavity is fixedly arranged in the fixed block and is in power connection with the hydraulic pump.

8. The parts screening and secondary processing apparatus as claimed in claim 1, wherein: the processing chamber upside is equipped with the conveyer belt chamber, the symmetry just rotates around the conveyer belt intracavity and is equipped with the conveyer belt axle, the conveyer belt intracavity is equipped with and is fixed in the rear side the first conveyer belt wheel of the outer disc of conveyer belt axle, the conveyer belt intracavity is equipped with and is fixed in the front side the second conveyer belt wheel of the outer disc of conveyer belt axle, second conveyer belt wheel with around having the conveyer belt between the first conveyer belt wheel, conveyer belt intracavity left side wall is fixed to be equipped with just to the rear side the driving motor and the power connection in conveyer belt axle center.

9. The parts screening and secondary processing apparatus as claimed in claim 1, wherein: deposit the chamber left side intercommunication and be equipped with the door plant chamber, the door plant intracavity is equipped with the door plant that can overturn left.