CN111744594A

CN111744594A - Shaking type separating and grinding device and method for impurities in wheat grains

Info

Publication number: CN111744594A
Application number: CN202010579443.6A
Authority: CN
Inventors: 刘宏国
Original assignee: Individual
Current assignee: Individual
Priority date: 2018-06-28
Filing date: 2018-06-28
Publication date: 2020-10-09
Also published as: CN108970695A

Abstract

The invention relates to the technical field of wheat processing equipment, in particular to a shaking type separating and grinding device and method for impurities in wheat grains. The invention aims to solve the technical problem that the wheat rice grains are difficult to remove scraps and dust in the processing process. In order to solve the technical problem, the invention provides a shaking type separating and grinding device for sundries in wheat grains, which comprises a box body, wherein four right-angle positions at the bottom of the box body are fixedly connected with supporting legs, the top of the box body is inserted with a feeding pipe, one side of the inner wall of the box body is provided with a sundry grain separating mechanism, and the top of the inner wall of the box body is fixedly connected with a wave type continuous shaking mechanism. In the starting process of the impurity particle separating mechanism, impurity particles in the wheat rice grains can be discharged from the filter screen through vibration, the inclined box can discharge the wheat rice grains in the inclined box into the wave type continuous shaking mechanism through gravity and vibration force, and the reset spring can improve the filtering efficiency of the impurity particles.

Description

Shaking type separating and grinding device and method for impurities in wheat grains

The invention relates to a divisional application of a shaking type separating and grinding device for impurities in wheat grains, which is applied for 2018, 06, 28 and has the application number of CN 201810686609.7.

Technical Field

The invention relates to the technical field of wheat processing equipment, in particular to a shaking type separating and grinding device and a grinding method for impurities in wheat grains.

Background

Wheat grains are a general term for wheat-based plants, are monocotyledons, are gramineous plants widely planted around the world, and wheat caryopsis are one of staple foods for human beings. Impurities inside the wheat grains need to be cleaned in the processing process of the wheat grains.

For example, CN 106108044 a proposes a vibration separation shell crusher, which aims to solve the problems that the conventional peanut sheller has a complex structure, a complex manufacturing process, high production and maintenance costs, the peanut sheller is difficult to bear for common farmers, the popularization of the peanut sheller is difficult to realize, the conventional equipment is difficult to completely separate the chippings from the peanuts, the peanuts are often wrapped with the chippings and are collected together, the collection efficiency is reduced, the peanut shell is separated mainly through the chip sieve holes and the peanut sieve holes, but the peanut shell has certain dust and chips, this dust and piece are difficult to discharge in by piece sieve mesh and the peanut sieve mesh completely to can influence the whole quality of peanut, the same wheat rice grain not only need discharge inside particulate matter in the course of working, also need discharge partial dust and piece.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides a shaking type separating and grinding device for impurities in wheat grains, which solves the problem that the scraps and dust are difficult to remove in the processing process of the wheat grains.

(II) technical scheme

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides a debris shake formula separation milling equipment in wheat grain, the power distribution box comprises a box body, the equal fixedly connected with supporting leg in four right angles departments of bottom half, it has the inlet pipe to peg graft at the top of box, one side of box inner wall is provided with miscellaneous separating mechanism, the continuous shake mechanism of top fixedly connected with wave formula of box inner wall, one side of box is inlayed and is had miscellaneous leaf to arrange mechanism, milling equipment has been cup jointed in the opening that miscellaneous leaf was arranged mechanism bottom and was seted up.

Preferably, the particle separating mechanism comprises a driving motor, the bottom of the driving motor is fixedly connected with the bottom of the inner wall of the box body, the output end of the driving motor is sleeved with a driving wheel, the driving wheel is in transmission connection with a driven wheel above the driving wheel through a belt, a rotating shaft is inserted in the axis of the driven wheel, two ends of the rotating shaft are respectively movably connected with the front side and the rear side of the inner wall of the box body, a pushing disc is sleeved on the rotating shaft, the rotating shaft is inserted in the axis far away from the pushing disc, one side of the inner wall of the box body is provided with a sliding groove, the top and the bottom of the inner wall of the sliding groove are connected through a sliding rod, a sliding block is sleeved in the sliding groove and connected on the sliding rod in a sliding manner, a reset spring is sleeved on the sliding rod and below the sliding block, two ends of the reset spring are respectively fixedly connected with the bottom of, and the bottom of inlet pipe is pegged graft at the top of slope case, be equipped with the filter screen in the opening that slope bottom of the case portion was seted up, the bottom of slope case just is located the oblique baffle of opening part fixedly connected with, one side of box inner wall just is located the filter screen under fixedly connected with ejection of compact cover, the discharge gate has been seted up to the bottom of box just is located the below of ejection of compact cover, promote the top overlap joint of dish side surface in one side of slope bottom of the case portion.

Preferably, the wavy continuous shaking mechanism comprises a driving shaft and a driven shaft, the two ends of the driving shaft and the driven shaft are respectively movably connected with the left end and the right end of the front side and the rear side of the inner wall of the box body, belt pulleys are sleeved on the driving shaft and the driven shaft, the two belt pulleys are in transmission connection through a transmission belt, a plurality of cambered surface push blocks are fixedly connected to the surface of the transmission belt, a driven transmission wheel is sleeved on the driving shaft and is in transmission connection with the double belt pulleys below the driven transmission wheel through a linkage belt, one side of the double belt pulleys is fixedly connected with the axle center of one side of the driving gear, a U-shaped rod is inserted in the axle center of the driving gear, the bottom end of the U-shaped rod is fixedly connected with the bottom of the inner wall of the box body, the double belt pulleys are in transmission connection with driving wheels sleeved on the output end of a driving motor, the equal fixedly connected with slide rail in both sides of installation cover inner wall, the top and the bottom of slide rail inner wall are passed through the guide bar and are connected, sliding connection has the guide block in the slide rail and cup joint on the guide bar, and just one side that two guide blocks are relative is passed through the connecting plate and is connected, the top swing joint of buffer spring and installation cover inner wall is passed through at the top of connecting plate, the bottom of connecting plate pass through the trident board respectively with the both sides fixed connection of inclined groove, a plurality of cambered surface vibrations piece of bottom fixedly connected with of inclined groove, cambered surface ejector pad and cambered surface vibrations piece meshing, be provided with toggle device on the trident board, toggle device cup joints in the inclined groove.

Preferably, toggle device includes three-phase asynchronous machine, one side fixed connection of three-phase asynchronous machine is in one side of trident board, first gear has been cup jointed to three-phase asynchronous machine's output, first gear and second gear meshing, the axle center department of second gear alternates there is the universal driving shaft, the both ends of universal driving shaft respectively with the both sides swing joint of trident board, the equal fixedly connected with main drive wheel in axle center department of first gear and second gear one side, and two main drive wheels are connected with two driven wheel transmissions respectively, it has the dwang to alternate from the axle center department of drive wheel, and the both ends of two dwangs respectively with the both sides swing joint of trident board, and all cup jointed the disc on two dwangs, and the side surface difference fixedly connected with a plurality of poker rod and a plurality of propelling movement piece of two discs.

Preferably, the miscellaneous blade removing mechanism comprises a blade removing box, the blade removing box is embedded at one side of the box body, the top and the bottom of the inner wall of the blade removing box are respectively and fixedly connected with the top and the bottom of the side surface of a first bearing through connecting rods, a shaft rod is inserted in the first bearing, two ends of the shaft rod are respectively sleeved with a blade, a first belt wheel is sleeved on the shaft rod and is in transmission connection with a second belt wheel below the first belt wheel through a driving belt, the driving belt is inserted at the bottom of the blade removing box, a driving connecting shaft is inserted at the axis of the second belt wheel, one end of the driving connecting shaft is movably connected with one side of the inner wall of the box body, the other end of the driving connecting shaft sequentially penetrates through the powder grinding device and the second bearing from right to left and extends to the outside of the powder grinding device and the second bearing, the bottom of the side surface of the second bearing is fixedly connected with the, the other end of the driving connecting shaft is sleeved with a grain sleeve, the grain sleeve is meshed with a driven gear below the grain sleeve, a connecting shaft is inserted in the axis of the driven gear, two ends of the connecting shaft are respectively movably connected with the front side and the rear side of the inner wall of the box body, and the driving gear is meshed with the driven gear.

Preferably, milling equipment is including smashing the cover, the bottom at row's leaf case is cup jointed at the top of smashing the cover, the bottom of smashing the cover runs through the bottom of box and communicates with each other rather than the outside, the drive links epaxial and is located the outside of smashing the cover and has cup jointed the main linkage gear, the main linkage gear meshes rather than the driven linkage gear at rear, from the axle center department of linkage gear one side and the one end fixed connection of movable rod, the other end of movable rod runs through one side of smashing the cover and rather than the inner wall swing joint of opposite side, the round roller has all been cup jointed on drive links axle and the movable rod, it smashes the tooth to cup joint on the side surface of round roller.

Preferably, the number of the buffer springs (518) is between 5 and 8.

Preferably, the number of the crushing teeth (76) is between 144 and 152.

(III) advantageous effects

The invention provides a shaking type separating and grinding device for impurities in wheat grains, which has the following beneficial effects:

(1) miscellaneous grain separating mechanism is at the in-process that starts, can discharge in by the filter screen through vibrations with the miscellaneous grain of the inside wheat grain of rice to the slope case can be with the mode of its inside wheat grain of rice through gravity and shaking force arrange into inside the wave formula shake mechanism in succession, reset spring can make things convenient for the slope case return after vibrations, and can accelerate the vibration frequency of slope case, for this reason, can improve the filtration efficiency to miscellaneous grain.

(2) The wave-type continuous shaking mechanism can shake the discharged wheat grains again, so that the wheat grains can vibrate in a small amplitude, at the moment, dust can fly, chips adhered to the dust can fly, and the flying dust and the flying chips can be pumped out by matching with the use of the impurity leaf discharging mechanism.

(3) The utility model discloses a stirring device, stirring device can stir vibrations wheat grain of rice when starting to can accelerate the efficiency that dust and piece break away from the wheat grain of rice, and the rotation opposite direction of poker rod and promotion piece, thereby the antiport of poker rod can make the wheat grain of rice stop a period more in the tip tank, at this moment, can make inside piece of wheat grain of rice and dust exhaust more thoroughly.

(4) After miscellaneous leaf row mechanism starts, cooperation wavy continuous shake mechanism's use can make the inside miscellaneous bits of wheat grain of rice break away from rapidly to two sets of fan blades can improve the wind speed, thereby can accelerate the discharge efficiency to dust and piece.

(5) The wheat grain that the milling equipment has cleared up and finishes can be handled by breaking the shell, and the wheat grain of rice is after breaking the shell, conveniently carries out processing on next step, cooperates the use of other mechanisms, can avoid the wheat grain of rice after breaking the shell, and inside still is adulterating unnecessary piece, can improve the whole quality of wheat grain of rice.

Drawings

FIG. 1 is a front cross-sectional view of the structure of the present invention;

FIG. 2 is an enlarged view of the structure of FIG. 1 at A in accordance with the present invention;

FIG. 3 is an enlarged view of the structure of FIG. 1 at B in accordance with the present invention;

FIG. 4 is a top view of the interior of a structural pulverizing sleeve of the present invention;

fig. 5 is a front view of the structure of the present invention.

In the figure: 1 box body, 2 supporting legs, 3 feeding pipes, 4 foreign particle separating mechanisms, 401 driving motors, 402 driving wheels, 403 driven wheels, 404 pushing disks, 405 sliding chutes, 406 sliding rods, 407 sliding blocks, 408 reset springs, 409 inclined boxes, 410 filter screens, 411 inclined baffles, 412 discharging sleeves, 413 discharging ports, 414 rotating shafts, 5 wave type continuous shaking mechanisms, 501 driving shafts, 502 driven shafts, 503 belt pulleys, 504 driving belts, 505 cambered surface pushing blocks, 506 driven wheels, 507 linkage belts, 508 double belt pulleys, 509 driving gears, 510U-shaped rods, 511 shaft belts, 512 driving wheels, 513 installation sleeves, 514 sliding rails, 515 guide rods, 516 guide blocks, 517 connecting plates, 518 buffer springs, 519 inclined grooves, 520 cambered surface shaking blocks, 521 stirring devices, 5211 three-phase asynchronous motors, 5212 first gears, 5213 second gears, 5214 linkage shafts, rotating rods, 5215, 5216 circular disks, 5217 stirring rods, 5218 pushing pieces, 5219 driving wheels, 52110 auxiliary driving wheel, 522 three-fork plate, 6 miscellaneous leaf discharging mechanism, 601 row leaf box, 602 connecting rod, 603 first bearing, 604 shaft rod, 605 air extracting blade, 606 first belt wheel, 607 driving belt, 608 second belt wheel, 609 driving connecting shaft, 610 second bearing, 611 supporting plate, 612 grain sleeve, 613 driven gear, 614 connecting shaft, 7 grinding device, 71 grinding sleeve, 72 main linkage gear, 73 auxiliary linkage gear, 74 movable rod, 75 round roller, 76 grinding tooth.

Detailed Description

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

Referring to fig. 1-5, the present invention provides a technical solution: the utility model provides a debris shake formula separation milling equipment in wheat grain of rice, includes box 1, the equal fixedly connected with supporting leg 2 of four right angles departments of box 1 bottom, and it has inlet pipe 3 to peg graft at box 1's top, and one side of box 1 inner wall is provided with miscellaneous grain separating mechanism 4, and the continuous shake mechanism 5 of wave formula of top fixedly connected with of box 1 inner wall, one side of box 1 are inlayed and are had miscellaneous leaf to arrange from mechanism 6, and milling equipment 7 has been cup jointed in the opening that miscellaneous leaf was arranged from mechanism 6 bottoms and is seted up.

The miscellaneous grain separating mechanism 4 comprises a driving motor 401, the bottom of the driving motor 401 is fixedly connected with the bottom of the inner wall of the box body 1, the output end of the driving motor 401 is sleeved with a driving wheel 402, the driving wheel 402 is in transmission connection with a driven wheel 403 above the driving wheel 402 through a belt, a rotating shaft 414 is inserted in the shaft center of the driven wheel 403, two ends of the rotating shaft 414 are respectively movably connected with the front side and the rear side of the inner wall of the box body 1, a pushing disc 404 is sleeved on the rotating shaft 414, the rotating shaft 414 is inserted in the shaft center far away from the pushing disc 404, one side of the inner wall of the box body 1 is provided with a sliding groove 405, the top and the bottom of the inner wall of the sliding groove 405 are connected through a sliding rod 406, a sliding block 407 is connected in the sliding groove 405 in a sleeved mode on the sliding rod 406, a return spring 408 is sleeved on the sliding rod 406 and positioned below the sliding block 407, the bottom end of the feeding pipe 3 is inserted into the top of the inclined box 409, a filter screen 410 is arranged in an opening formed in the bottom of the inclined box 409, the bottom of the inclined box 409 is fixedly connected with an inclined baffle 411 which is positioned at the opening, one side of the inner wall of the box body 1 is fixedly connected with a discharge sleeve 412 which is positioned under the filter screen 410, the bottom of the box body 1 and the lower side of the discharge sleeve 412 are provided with a discharge hole 413, the top of the side surface of the push disc 404 is lapped on one side of the bottom of the inclined box 409, the axis of the push disc 404 is far away from the rotating rod, the side surface of the push disc 404 can indirectly contact with the bottom of the inclined box 409 in the rotating process, so that the inclined box 409 can vibrate, the inclined baffle 411 can change the falling track of the miscellaneous particles, the miscellaneous particles are prevented from being splashed, and the miscellaneous particles can be smoothly discharged from.

The wave type continuous shaking mechanism 5 comprises a driving shaft 501 and a driven shaft 502, two ends of the driving shaft 501 and the driven shaft 502 are respectively movably connected with the left end and the right end of the front side and the rear side of the inner wall of the box body 1, belt pulleys 503 are sleeved on the driving shaft 501 and the driven shaft 502, the two belt pulleys 503 are in transmission connection through a transmission belt 504, a plurality of cambered push blocks 505 are fixedly connected on the surface of the transmission belt 504, a driven transmission wheel 506 is sleeved on the driving shaft 501, the driven transmission wheel 506 is in transmission connection with a double belt pulley 508 below the driven transmission wheel through a linkage belt 507, one side of the double belt pulley 508 is fixedly connected with the axle center of one side of a driving gear 509, a U-shaped rod 510 is inserted in the axle center of the driving gear 509, the bottom end of the U-shaped rod 510 is fixedly connected with the bottom of the inner wall of the box body 1, the double belt pulley 508 is in transmission connection with, the two sides of the inner wall of the mounting sleeve 513 are fixedly connected with sliding rails 514, the top and the bottom of the inner wall of the sliding rails 514 are connected through guide rods 515, guide blocks 516 are connected in the sliding rails 514 in a sliding manner and sleeved on the guide rods 515 in a sliding manner, one opposite sides of the two guide blocks 516 are connected through connecting plates 517, the top of each connecting plate 517 is movably connected with the top of the inner wall of the mounting sleeve 513 through buffer springs 518, the number of the buffer springs 518 is 5-8, the guide blocks 516 are sleeved on the guide rods 515 inserted in the sliding rails 514, the guide blocks 516 can be stabilized to slide in the sliding rails 514 and prevented from being separated from the sliding rails 514, the number of the buffer springs 518 is set between 5-8, on one hand, the stability of the connecting plates 517 can be improved, on the other hand, the vibration frequency of the connecting plates 517 can be improved, the bottom of the connecting, the bottom of the inclined groove 519 is fixedly connected with a plurality of cambered vibration blocks 520, the cambered push block 505 is meshed with the cambered vibration blocks 520, the three-fork plate 522 is provided with a toggle device 521, the toggle device 521 is sleeved in the inclined groove 519, the toggle device 521 comprises a three-phase asynchronous motor 5211, one side of the three-phase asynchronous motor 5211 is fixedly connected with one side of the three-fork plate 522, the output end of the three-phase asynchronous motor 5211 is sleeved with a first gear 5212, the first gear 5212 is meshed with a second gear 5213, a linkage shaft 5214 is inserted in the shaft center of the second gear 5213, two ends of the linkage shaft 5214 are respectively movably connected with two sides of the three-fork plate 522, the shaft centers of one sides of the first gear 5212 and the second gear 5213 are fixedly connected with main driving wheels 5219, the two main driving wheels 5219 are respectively in transmission connection with two driven wheels 52110, a rotating rod 5215 is inserted in the shaft center of the driving wheel 52110, and two ends of the two driving wheels 5215 are respectively movably connected, and all cup jointed the disc 5216 on two dwang 5215, and the side surface of two discs 5216 is fixedly connected with a plurality of poking rod 5217 and a plurality of pushing piece 5218 respectively, when three-phase asynchronous motor 5211 starts, can drive two discs 5216 through first gear 5212 and second gear 5213 and rotate with opposite direction to can make poking rod 5217 stir the wheat grain of rice, and pushing piece 5218 can promote the wheat grain of rice.

The hybrid blade discharging mechanism 6 comprises a blade discharging box 601, the blade discharging box 601 is embedded at one side of the box body 1, the top and the bottom of the inner wall of the blade discharging box 601 are respectively and fixedly connected with the top and the bottom of the side surface of a first bearing 603 through a connecting rod 602, a shaft lever 604 is inserted in the first bearing 603, two ends of the shaft lever 604 are respectively sleeved with a suction blade 605, a first belt pulley 606 is sleeved on the shaft lever 604, the first belt pulley 606 is in transmission connection with a second belt pulley 608 below the first belt pulley through a driving belt 607, the driving belt 607 is inserted at the bottom of the blade discharging box 601, a driving connecting shaft 609 is inserted at the axle center of the second belt pulley 608, one end of the driving connecting shaft 609 is movably connected with one side of the inner wall of the box body 1, the other end of the driving connecting shaft 609 sequentially penetrates through a grinding device 7 and a second bearing 610 from right to left and extends to the outside of the driving connecting shaft, the bottom of, the other end of the driving connecting shaft 609 is sleeved with a grain sleeve 612, the grain sleeve 612 is meshed with a driven gear 613 below the grain sleeve, a connecting shaft 614 is inserted in the axis of the driven gear 613, two ends of the connecting shaft 614 are movably connected with the front side and the rear side of the inner wall of the box body 1 respectively, the driving gear 509 is meshed with the driven gear 613, and when the driven gear 613 rotates, the grain sleeve 612 can rotate, so that the driving connecting shaft 609 can rotate.

The grinding device 7 comprises a grinding sleeve 71, the top of the grinding sleeve 71 is sleeved at the bottom of the blade arranging box 601, the bottom of the grinding sleeve 71 penetrates through the bottom of the box body 1 and is communicated with the outside of the box body, a driving connecting shaft 609 is sleeved with a driving linkage gear 72 which is positioned on the outside of the grinding sleeve 71, the driving linkage gear 72 is meshed with a driven linkage gear 73 behind the driving linkage gear, the axial center of one side of the driven linkage gear 73 is fixedly connected with one end of a movable rod 74, the other end of the movable rod 74 penetrates through one side of the grinding sleeve 71 and is movably connected with the inner wall of the other side of the grinding sleeve, round rollers 75 are sleeved on the driving connecting shaft 609 and the movable rod 74, grinding teeth 76 are sleeved on the side surfaces of the round rollers 75, and the number of the grinding teeth 76 is 144 and.

The driving motor 401 and the three-phase asynchronous motor 5211 mentioned in the technical scheme are both connected with 220V mains supply, and the device drives the whole device to operate through two driving mechanisms, so that part of electric energy can be saved, and the processing cost is saved.

The working principle is as follows: first, the driving motor 401 is started, the driving wheel 402 can drive the driven wheel 403 to rotate through the belt, so that the pushing disc 404 can rotate, the pushing disc 404 can indirectly push the inclined box 409 at the moment, the sliding block 407 is driven to slide on the sliding rod 406 inserted in the sliding groove 405, the return spring 408 can stretch, and then the grains in the wheat grains can be discharged from the filter screen 410.

When the wheat grain of rice falls on the tip chute 519, drive wheel 512 can drive two belt pulleys 508 through axle belt 511 and rotate, thereby can drive two belt pulleys 503 through the ganged belt 507 and rotate, at this moment, cambered surface ejector pad 505 that sets up on the drive belt 504 can shake piece 520 friction with the cambered surface, thereby can make the tip chute 519 shake, and connecting plate 517 can drive two guide blocks 516 and slide respectively in two slide rails 514, meanwhile, buffer spring 518 can carry out concertina movement, thereby can make the tip chute 519 shake gradually.

And when miscellaneous leaf discharge mechanism 6 started, can make fan blade 605 rotate to can form the absorbing force, discharge the inside dust and miscellaneous bits of box 1 in arranging leaf case 601, later, the wheat grain of rice can get into between two round rollers 75, and when two round rollers 75 rotated, the cooperation was gone up the crushing tooth 76 that sets up and can be smashed the wheat grain of rice, at last by smashing the interior discharge of cover 71.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation. The use of the phrase "comprising one of the elements does not exclude the presence of other like elements in the process, method, article, or apparatus that comprises the element.

Claims

1. The utility model provides an debris shake formula separation milling equipment in wheat grain of rice, includes box (1), its characterized in that: the device comprises a box body (1), supporting legs (2) are fixedly connected to four right-angle positions at the bottom of the box body (1), a feeding pipe (3) is inserted into the top of the box body (1), a miscellaneous particle separating mechanism (4) is arranged on one side of the inner wall of the box body (1), a wave type continuous shaking mechanism (5) is fixedly connected to the top of the inner wall of the box body (1), a miscellaneous leaf removing mechanism (6) is embedded into one side of the box body (1), and a grinding device (7) is sleeved in a through hole formed in the bottom of the miscellaneous leaf removing mechanism (6);

the particle separating mechanism (4) comprises a driving motor (401), the bottom of the driving motor (401) is fixedly connected with the bottom of the inner wall of the box body (1), the output end of the driving motor (401) is sleeved with a driving wheel (402), the driving wheel (402) is in transmission connection with a driven wheel (403) above the driving wheel through a belt (415), a rotating shaft (414) is inserted in the shaft center of the driven wheel (403), two ends of the rotating shaft (414) are respectively movably connected with the front side and the rear side of the inner wall of the box body (1), a pushing disk (404) is sleeved on the rotating shaft (414), the rotating shaft (414) is inserted in the shaft center far away from the pushing disk (404), a sliding groove (405) is formed in one side of the inner wall of the box body (1), the top and the bottom of the inner wall of the sliding groove (405) are connected through a sliding rod (406), a sliding block (407) is arranged in the sliding groove (405, a return spring (408) is sleeved on the sliding rod (406) and positioned below the sliding block (407), two ends of the return spring (408) are respectively fixedly connected with the bottom of the sliding block (407) and the bottom of the inner wall of the sliding groove (405), one side of the sliding block (407) is fixedly connected with one side of the inclined box (409), the bottom end of the feeding pipe (3) is inserted at the top of the inclined box (409), a filter screen (410) is arranged in an opening formed at the bottom of the inclined box (409), an inclined baffle (411) is fixedly connected to the bottom of the inclined box (409) and positioned at the opening, a discharging sleeve (412) is fixedly connected with one side of the inner wall of the box body (1) and is positioned under the filter screen (410), a discharge hole (413) is arranged at the bottom of the box body (1) and below the discharge sleeve (412), the top of the side surface of the pushing disc (404) is overlapped on one side of the bottom of the inclined box (409);

the wave type continuous shaking mechanism (5) comprises a driving shaft (501) and a driven shaft (502), the two ends of the driving shaft (501) and the driven shaft (502) are respectively movably connected with the left end and the right end of the front side and the rear side of the inner wall of a box body (1), belt pulleys (503) are sleeved on the driving shaft (501) and the driven shaft (502), the two belt pulleys (503) are in transmission connection through a transmission belt (504), the surface of the transmission belt (504) is fixedly connected with a plurality of cambered surface push blocks (505), a driven transmission wheel (506) is sleeved on the driving shaft (501), the driven transmission wheel (506) is in transmission connection with a double belt pulley (508) below the driven transmission wheel through a linkage belt (507), one side of the double belt pulleys (508) is fixedly connected with the axle center of one side of the driving gear (509), a U-shaped rod (510) is inserted in the axle center of the driving gear (509), the bottom end of the U-shaped rod (510) is fixedly connected with the, the double-belt pulley (508) is in transmission connection with a driving wheel (512) which is sleeved on the output end of the driving motor (401) through a shaft belt (511), the top of the inner wall of the box body (1) is fixedly connected with an installation sleeve (513), two sides of the inner wall of the installation sleeve (513) are fixedly connected with slide rails (514), the top and the bottom of the inner wall of each slide rail (514) are connected through guide rods (515), the slide rails (514) are sleeved on the guide rods (515) and are connected with guide blocks (516) in a sliding manner, one opposite sides of the two guide blocks (516) are connected through connecting plates (517), the top of each connecting plate (517) is movably connected with the top of the inner wall of the installation sleeve (513) through buffer springs (518), the bottom of each connecting plate (517) is fixedly connected with two sides of an inclined groove (519) through three fork plates (522), and the bottom of each inclined groove (519) is fixedly connected with a plurality of cambered vibration blocks (520), the cambered surface push block (505) is meshed with the cambered surface vibration block (520), a toggle device (521) is arranged on the three-fork plate (522), and the toggle device (521) is sleeved in the inclined groove (519);

the toggle device (521) comprises a three-phase asynchronous motor (5211), one side of the three-phase asynchronous motor (5211) is fixedly connected to one side of a three-fork plate (522), the output end of the three-phase asynchronous motor (5211) is sleeved with a first gear (5212), the first gear (5212) is meshed with a second gear (5213), a linkage shaft (5214) is inserted at the shaft center of the second gear (5213), two ends of the linkage shaft (5214) are respectively movably connected with two sides of the three-fork plate (522), main driving wheels (5219) are fixedly connected at the shaft centers of one sides of the first gear (5212) and the second gear (5213), the two main driving wheels (5219) are respectively in transmission connection with two slave driving wheels (52110), a rotating rod (5215) is inserted at the shaft center of the slave driving wheel (52110), and two ends of the two driving wheels (5215) are respectively movably connected with two sides of the three-fork plate (522), the two rotating rods (5215) are sleeved with discs (5216), and the side surfaces of the two discs (5216) are fixedly connected with a plurality of poke rods (5217) and a plurality of push sheets (5218) respectively;

the hybrid blade removing mechanism (6) comprises a blade removing box (601), the blade removing box (601) is embedded in one side of a box body (1), the top and the bottom of the inner wall of the blade removing box (601) are fixedly connected with the top and the bottom of the side surface of a first bearing (603) through connecting rods (602), a shaft lever (604) is inserted in the first bearing (603), two ends of the shaft lever (604) are sleeved with air suction blades (605), a first belt wheel (606) is sleeved on the shaft lever (604), the first belt wheel (606) is in transmission connection with a second belt wheel (608) below the first belt wheel through a driving belt (607), the driving belt (607) is inserted in the bottom of the blade removing box (601), a driving connecting shaft (609) is inserted in the shaft center of the second belt wheel (608), one end of the driving connecting shaft (609) is movably connected with one side of the inner wall of the box body (1), and the other end of the driving connecting shaft (609) sequentially penetrates through a powder grinding device (7) and a second bearing (610) from right to left ) And extend to its outside, the bottom of second bearing (610) side surface passes through backup pad (611) and the bottom fixed connection of box (1) inner wall, line cover (612) have been cup jointed to the other end of drive even axle (609), line cover (612) meshes with driven gear (613) of its below, driven gear (613) axle center department alternates there is connecting axle (614), the both ends of connecting axle (614) respectively with the front and back both sides swing joint of box (1) inner wall, driving gear (509) and driven gear (613) meshing.

2. The vibrating type separating and grinding device for the impurities in the wheat grains according to claim 1, is characterized in that: milling equipment (7) are including smashing cover (71), the bottom at row leaf case (601) is cup jointed at the top of smashing cover (71), the bottom of smashing cover (71) is run through the bottom of box (1) and is communicated with each other rather than the outside, drive link (609) is gone up and is located the outside of smashing cover (71) and has cup jointed main linkage gear (72), main linkage gear (72) and its rear from linkage gear (73) meshing, from the axle center department of linkage gear (73) one side and the one end fixed connection of movable rod (74), the other end of movable rod (74) runs through the one side of smashing cover (71) and rather than the inner wall swing joint of opposite side, all cup jointed round roller (75) on drive link (609) and movable rod (74), cup jointed crushing tooth (76) on the side surface of round roller (75).

3. The vibrating type separating and grinding device for the impurities in the wheat grains according to claim 1, is characterized in that: the number of the buffer springs (518) is between 5 and 8.

4. The vibrating type separating and grinding device for the impurities in the wheat grains according to claim 2 is characterized in that: the number of the crushing teeth (76) is between 144 and 152.

5. The method for grinding the wheat grain inner impurities shaking type separating and grinding device according to any one of claims 1 to 4, wherein the method comprises the following steps: when the device is used, the driving motor (401) is started firstly, the driving wheel (402) can drive the driven wheel (403) to rotate through the belt, so that the pushing disc (404) can rotate, the pushing disc (404) can indirectly push the inclined box (409) at the moment, the sliding block (407) can be driven to slide on the sliding rod (406) inserted in the sliding groove (405), the reset spring (408) can stretch, and then the grains in the wheat grains can be discharged from the filter screen (410);

when the grains of wheat fall onto the inclined groove (519), the driving wheel (512) can drive the double pulleys (508) to rotate through the shaft belt (511), so that the two pulleys (503) can be driven to rotate through the linkage belt (507), at the moment, the cambered surface push block (505) arranged on the driving belt (504) can rub against the cambered surface vibration block (520), so that the inclined groove (519) can vibrate, the connecting plate (517) can drive the two guide blocks (516) to slide in the two sliding rails (514) respectively, and meanwhile, the buffer spring (518) can perform telescopic motion, so that the inclined groove (519) can vibrate gradually;

and when miscellaneous leaf is arranged from mechanism (6) and is started, can make fan blade (605) rotate to can form the absorption power, discharge dust and miscellaneous bits inside box (1) in arranging leaf case (601), later, the wheat grain of rice can get into between two round rollers (75), when two round rollers (75) rotated, the cooperation was set up on it and is smashed the tooth (76) and can be smashed the wheat grain of rice, discharge in smashing the cover (71) at last.