CN116268477A

CN116268477A - Cooking machine convenient for screening and impurity removal

Info

Publication number: CN116268477A
Application number: CN202310290108.8A
Authority: CN
Inventors: 刘潇蔚; 云鹏; 李娜; 陈红玲
Original assignee: Inner Mongolia Jialong Agricultural Development Co ltd
Current assignee: Inner Mongolia Jialong Agricultural Development Co ltd
Priority date: 2023-03-23
Filing date: 2023-03-23
Publication date: 2023-06-23

Abstract

The invention discloses a stewing machine convenient for screening and impurity removal, and relates to the technical field of quick-frozen corn grain processing. According to the invention, the corn dropping friction drives the classifying ring to rotate, so that the extra motor is not arranged inside the classifying ring, the manufacturing cost of the equipment can be reduced, in addition, the rotating speed of the corn and the rotating speed of the classifying ring are driven by the displacement of the corn, so that the synchronous degree of the corn shifting speed and the rotating speed of the classifying ring is higher, the situation that corn grains are more damaged or are unevenly stripped when the corn shifting speed and the classifying ring rotating speed are not matched can be avoided, and the grain stirring effect of the equipment can be improved.

Description

Cooking machine convenient for screening and impurity removal

Technical Field

The invention relates to the technical field of quick-frozen corn grain processing, in particular to a cooking machine convenient for screening and impurity removal.

Background

Corn is a gramineae and maize plant, commonly known as corn, native to central and south america, widely planted in tropical and temperate regions of the world, with higher nutritional value, and is an excellent grain crop; the quick-frozen corn kernels are one of indispensable raw materials of foods, medical and health, light industry, chemical industry and the like, are common corn foods in the market today, in the production process of the quick-frozen corn kernels, the corn kernels are required to be separated from whole corn, and then the corn is steamed, drained and quick-frozen, so that compared with the whole corn, the quick-frozen corn kernels are more convenient to store and transport and have longer shelf life, and the popularity of the quick-frozen corn kernels is higher and higher

In the using process of a common corn cooking machine in the market, the corn cob fragments mixed with corn seeds in the corn kernel separation process are difficult to remove effectively, so that small-particle cob fragments are frequently generated in the prepared corn, and the eating taste of the corn kernels is seriously affected.

Accordingly, in view of the above, research and improvement have been made on the conventional structure and the conventional defects, and a cooker which facilitates the screening and impurity removal has been proposed.

Disclosure of Invention

The invention aims to provide a stewing machine convenient for screening and impurity removal, so as to solve the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a machine of cooking convenient to screening edulcoration, includes box, classification subassembly and screening subassembly, the top outside of box is connected with the pan feeding pipe, and the inboard of pan feeding pipe has been seted up and has been led to the groove, the outside both sides of pan feeding pipe are provided with the supporting seat, and the inboard of supporting seat is settled there is the pan feeding subassembly, classification subassembly sets up in the end of pan feeding pipe, and the outer end of classification subassembly has settled first baffle, the bottom outside of first baffle is provided with air-dry subassembly, and air-dry the top outer end of subassembly has been seted up communicating pipe, the end of communicating pipe is provided with the suction machine, air-dry the outside middle section of subassembly is provided with excellent core exit tube, and the end-to-end connection of excellent core exit tube has the row material pipe, screening subassembly sets up in air-dry the bottom outside of subassembly, and the bottom outer end of screening subassembly is provided with the second baffle, the bottom inboard of box is provided with the zone of heating, and the bottom middle-end of box is provided with broken subassembly.

Further, the pan feeding subassembly includes positioning spring, fixing base, laminating wheel and first motor, positioning spring outer end is connected with the fixing base, and the inboard of fixing base is provided with the laminating wheel, the outer end of fixing base is settled there is first motor.

Furthermore, the positioning springs are elastically connected with the fixing seat, and the two fixing seats are symmetrically distributed along the vertical center line of the feeding pipe.

Further, the classification subassembly includes classification seat, axis of rotation, classification ring, classification tooth, first gear, second gear, first awl tooth, second awl tooth, first drive belt, first follow driving wheel, second drive belt, second follow driving wheel and rubber laminating layer, the inboard top of classification seat is provided with the axis of rotation, and the bottom outside of axis of rotation is connected with classification ring, the inside of classification ring is provided with the classification tooth, the outer end of classification ring is provided with first gear, and the right-hand member of first gear is settled there is the second gear, the top outside of second gear is provided with first awl tooth, and the top outside of first awl tooth is connected with the second awl tooth, the rear portion outside of second awl tooth is connected with first drive belt, and the top outer end of first drive belt is connected with first follow driving wheel, the outer end of first follow driving wheel is connected with the second drive belt, and second drive belt is kept away from first follow driving wheel one side and is provided with the second follow driving wheel, the outer end of second follow driving wheel is connected with rubber laminating layer.

Further, the classifying ring is connected with the first gear in a sleeved mode, and the first gear is meshed with the second gear.

Further, air-dry subassembly includes air-dry case, feed inlet, first filter screen, vibrating motor, pressure plate, compression spring, U type pipe and outlet pipe, the feed inlet has been seted up in the top outside of air-dry case, and the top inboard of air-dry case is provided with first filter screen, vibrating motor has been settled to the outer end of air-dry case, and the inboard middle-end of air-dry case is provided with the pressure plate, and the bottom outside of pressure plate is provided with compression spring, the outside both sides of air-dry case are connected with U type pipe, and the end-to-end connection of U type pipe has the outlet pipe.

Further, the pressure plate is elastically connected with the pressure spring, and the outer contour of the pressure plate is attached to the inner contour of the air drying box.

Further, the screening subassembly is including going out bellows, play tuber pipe, hourglass workbin, exhaust pipe, second filter screen, collection sediment case and kernel of corn exit tube, the outside both sides of going out bellows are connected with out the tuber pipe, and the end-to-end connection who goes out the tuber pipe has a material leakage case, it has the exhaust pipe to drain the material case to keep away from out tuber pipe one side placement, and the inboard of exhaust pipe is provided with the second filter screen, the end-to-end connection of exhaust pipe has a collection sediment case, and the bottom outside of leaking the material case is connected with the kernel of corn exit tube.

Further, the air outlet pipe is communicated with the exhaust pipe through the material leakage box, and the air outlet pipe and the exhaust pipe are obliquely arranged.

Further, broken subassembly includes second motor, pivot, stirring rake, parcel case, weeping groove and third filter screen, the output of second motor is connected with the pivot, and the outer end of pivot is connected with the stirring rake, the parcel case has been settled to the outer end of stirring rake, and the weeping groove has been seted up on the surface of parcel case, the inboard of weeping groove is settled there is the third filter screen.

The invention provides a stewing machine convenient for screening and impurity removal, which has the following beneficial effects:

1. according to the corn feeding device, corn can be contacted with the laminating wheel in the process of sliding in the feeding pipe, the laminating wheel is driven to rotate by the first motor, after the corn is contacted with the laminating wheel, the laminating wheel can drive the corn to slide in the feeding pipe through rotation, so that the corn can be prevented from being blocked in the feeding pipe, in addition, when the laminating wheel drives the corn to slide, the corn can be pressed and pushed, the grading effect of the corn in the grading component can be improved, in addition, when the diameter of the corn is larger, after the corn is laminated with the laminating wheel, the laminating wheel can be moved backwards through the extrusion positioning spring, and when the diameter of the corn is smaller, the laminating wheel can keep lamination with the corn through resilience of the positioning spring, so that the laminating wheel can keep lamination with the corn with different diameters through positioning in the use process, meanwhile, damage to corn grains is avoided, and the universality of the device can be improved.

2. When the corn is pushed by the laminating wheel, the outer surface of the corn can be contacted with the rubber laminating layer outside the second driven wheel, the rubber laminating layer has better elasticity, the rubber laminating layer can also adapt to corn with different diameters, the corn can drive the second driven wheel to rotate when sliding on the inner side of the feeding pipe, after the second driven wheel rotates, the first driven wheel can be driven to rotate through the second driving belt, the first driven wheel can rotate through the first driving belt, the first driving belt is connected with the second conical teeth, the second conical teeth are meshed with the first conical teeth, the first conical teeth can drive the second gear to rotate together, the second gear is meshed with the first gear, the first gear is sleeved on the outer end of the classifying ring, the rotating shaft and the classifying ring can be driven to rotate on the inner side of the classifying seat when the corn slides on the inner side of the feeding pipe, the classifying ring can separate corn kernels and corn cobs on the surface through rotation and friction after the corn enters the inner side of the classifying seat, the corn kernels can be separated through rotation and the classifying teeth on the inner side of the classifying ring, the rotating speed of the classifying ring can be reduced through the rotating of the classifying ring, the classifying ring or the classifying ring can be driven by the rotating motor to rotate, the classifying ring can be prevented from rotating or the classifying ring can not rotate, the corn kernels can be separated, the corn can be separated from the corn ring can be simultaneously, the corn ring can rotate, the corn ring can has a high speed is separated, the corn can is has a high speed, and the corn-separating device can and the corn can be has a high speed device.

3. According to the invention, after corn kernels fall onto the pressure plate, the suction machine works, air in the air drying box and moisture on the corn kernels are discharged through the communicating pipe, so that the equipment can rapidly air-dry the corn kernels in the air drying box, after the corn kernels on the pressure plate are too much, the pressure spring is pressed to drive the pressure plate to move downwards, the corn kernels can enter the outflow pipe through the U-shaped pipe and flow into the material leakage box, the air leakage box works through the air outlet box, high-speed airflow can enter the material leakage box through the air outlet pipe, the high-speed airflow can blow the corn kernels, the high-speed airflow blows the corn kernels through the high-speed airflow, the corn kernels with larger weight are influenced by the airflow to be less, the corn kernels can still move towards the bottom of the material leakage box, the small-weight corn kernels can enter the interior of the air collection box due to the blowing of the airflow, the small corn kernels are stored in the interior of the air outlet pipe through the second filter screen after the small corn kernels are close to the second filter screen, the high-speed airflow can be mistakenly blown into the interior of the material collection box and flow into the material leakage box through the second filter screen, the air outlet pipe can be more difficult to separate the corn kernels due to the high-speed airflow, the high-speed airflow can flow into the air leakage box can be prevented from being more difficult to flow into the air leakage box, the corn kernels can be easily mixed into the air-drying box through the air-drying box, and the high-speed kernels can be easily difficult to flow and the air-dry the corn kernels can be easily and easily separated into the air box through the air filter.

4. According to the invention, the screened corn kernels can enter the bottom of the box body through the corn kernel outlet pipe, the bottom of the box body is of a boiler-shaped structure, the heating layer is used for heating water at the bottom of the box body, corn can be steamed, the corn kernels enter the rod cores of the discharging pipe and can enter the wrapping box, the rod cores in the wrapping box can be steamed together in the process of steaming the corn by the heating layer, the second motor is used for driving the rotating shaft to rotate in the process of steaming the rod cores, the stirring paddles can break the rod cores, juice and flavor in the rod cores can be transferred into the corn kernels through the liquid leakage groove, the corn flavor and flavor of the corn kernels can be greatly improved, and the residue of the rod cores can be covered by the third filter screen bag so as to avoid the contact between the residue and the corn kernels.

Drawings

FIG. 1 is a schematic diagram of the whole structure of a digester in front view for facilitating screening and impurity removal according to the present invention;

FIG. 2 is a schematic view showing the enlarged structure of the steaming machine A in FIG. 1, which is convenient for screening and impurity removal;

FIG. 3 is a schematic view of a feeding assembly of a digester for facilitating screening and impurity removal according to the present invention;

FIG. 4 is a schematic view of a classification assembly of a digester for facilitating screening and impurity removal according to the present invention;

FIG. 5 is a schematic view of a structure of a second driven wheel and a rubber lamination layer of the digester for facilitating screening and impurity removal according to the present invention;

FIG. 6 is a schematic diagram of an air drying assembly of a digester for facilitating screening and impurity removal according to the present invention;

FIG. 7 is an enlarged schematic view of the structure of the digester of FIG. 1 at B for facilitating screening and impurity removal according to the present invention;

fig. 8 is a schematic diagram of a packing box of the steaming and boiling machine, which is convenient for screening and impurity removal.

In the figure: 1. a case; 2. a feeding pipe; 3. a through groove; 4. a support base; 5. a feeding assembly; 501. a positioning spring; 502. a fixing seat; 503. a laminating wheel; 504. a first motor; 6. a classification assembly; 601. a classification seat; 602. a rotating shaft; 603. a classification ring; 604. classifying teeth; 605. a first gear; 606. a second gear; 607. a first bevel gear; 608. a second bevel gear; 609. a first belt; 610. a first driven wheel; 611. a second belt; 612. a second driven wheel; 613. a rubber bonding layer; 7. a first separator; 8. air-drying the assembly; 801. an air drying box; 802. a feed inlet; 803. a first filter screen; 804. a vibration motor; 805. a pressure plate; 806. a pressure spring; 807. a U-shaped tube; 808. an outflow tube; 9. a communicating pipe; 10. a suction machine; 11. a rod core outlet pipe; 12. a discharge pipe; 13. a screen assembly; 1301. a wind outlet box; 1302. an air outlet pipe; 1303. a material leakage box; 1304. an exhaust pipe; 1305. a second filter screen; 1306. a slag collecting box; 1307. corn grain outlet pipe; 14. a second separator; 15. a heating layer; 16. a crushing assembly; 1601. a second motor; 1602. a rotating shaft; 1603. stirring paddles; 1604. a parcel box; 1605. a liquid leakage groove; 1606. and a third filter screen.

Detailed Description

Referring to fig. 1 to 8, the present invention provides the following technical solutions: the utility model provides a machine of cooking convenient to screening edulcoration, including box 1, classification subassembly 6 and screening subassembly 13, the top outside of box 1 is connected with pan feeding pipe 2, and the inboard of pan feeding pipe 2 has been seted up logical groove 3, the outside both sides of pan feeding pipe 2 are provided with supporting seat 4, and pan feeding subassembly 5 has been settled to the inboard of supporting seat 4, classification subassembly 6 is settled in the end of pan feeding pipe 2, and the outer end of classification subassembly 6 has settled first baffle 7, the bottom outside of first baffle 7 is provided with air-dry subassembly 8, and communicating pipe 9 has been seted up at the top outer end of air-dry subassembly 8, the end of communicating pipe 9 is provided with aspirator 10, the outside middle section of air-dry subassembly 8 is provided with excellent core exit tube 11, and the end-to-end connection of excellent core exit tube 11 has row material pipe 12, screening subassembly 13 is settled in the bottom outside of air-dry subassembly 8, and the bottom outer end of screening subassembly 13 is provided with second baffle 14, the bottom inboard of box 1 is provided with heating layer 15, and the bottom middle-end of box 1 is provided with broken subassembly 16.

Referring to fig. 1 to 8, the feeding assembly 5 includes a positioning spring 501, a fixing base 502, a bonding wheel 503 and a first motor 504, the outer end of the positioning spring 501 is connected with the fixing base 502, the inner side of the fixing base 502 is provided with the bonding wheel 503, the outer end of the fixing base 502 is provided with the first motor 504, the positioning spring 501 is elastically connected with the fixing base 502, the fixing base 502 is symmetrically distributed with two along the vertical center line of the feeding tube 2, the granule assembly 6 includes a granule separating base 601, a rotating shaft 602, a granule separating ring 603, granule separating teeth 604, a first gear 605, a second gear 606, a first bevel 607, a second bevel 608, a first driving belt 609, a first driven wheel 610, a second driving belt 611, a second driven wheel 612 and a rubber bonding layer 613, the inner side top of the granule separating base 601 is provided with the rotating shaft 602, the outer side of the bottom of the rotating shaft 602 is connected with a granule separating ring 603, the inside of the granule separating ring 603 is provided with granule separating teeth 604, the outer end of the classification ring 603 is provided with a first gear 605, the right end of the first gear 605 is provided with a second gear 606, the top outer side of the second gear 606 is provided with a first bevel gear 607, the top outer side of the first bevel gear 607 is connected with a second bevel gear 608, the rear outer side of the second bevel gear 608 is connected with a first driving belt 609, the top outer end of the first driving belt 609 is connected with a first driven wheel 610, the outer end of the first driven wheel 610 is connected with a second driving belt 611, one side of the second driving belt 611 far away from the first driven wheel 610 is provided with a second driven wheel 612, the outer end of the second driven wheel 612 is connected with a rubber attaching layer 613, the classification ring 603 is connected with the first gear 605 in a sleeved mode, the first gear 605 is meshed with the second gear 606, the air drying component 8 comprises an air drying box 801, a feeding port 802, a first filter screen 804, a vibration motor 804, a pressure plate 805, a pressure spring 806, a U-shaped pipe 807 and an outflow pipe 808, a feed inlet 802 is formed in the outer side of the top of the air drying box 801, a first filter screen 803 is arranged on the inner side of the top of the air drying box 801, a vibration motor 804 is arranged at the outer end of the air drying box 801, a pressure plate 805 is arranged at the middle end of the inner side of the air drying box 801, a pressure spring 806 is arranged on the outer side of the bottom of the pressure plate 805, U-shaped pipes 807 are connected to the outer sides of the air drying box 801, an outflow pipe 808 is connected to the tail ends of the U-shaped pipes 807, the pressure plate 805 is elastically connected to the pressure spring 806, the outer contour of the pressure plate 805 is attached to the inner contour of the air drying box 801, a screening assembly 13 comprises an air outlet box 1301, an air outlet pipe 1302, a material leakage box 1303, an exhaust pipe 1304, a second filter screen 1305, a slag collecting box 1306 and a corn grain outlet pipe 1307, the outer sides of the air outlet box 1301 are connected to the outer side of the air outlet box 1301 are connected to the air outlet pipe 1302, the air outlet box 1603 is connected to the outer side of the air outlet box 1603, the air outlet box 1603 is connected to the air outlet box 1603 through a rotary shaft 1603, the rotary shaft 1603 is wrapped by the rotary shaft 1603, and the rotary shaft 1603 is wrapped by the rotary shaft 1603;

the specific operation is as follows: after the corn which needs to be poked into the feeding pipe 2 is thrown into the feeding pipe 2 by workers, the corn can slide in the feeding pipe 2, the corn can be contacted with the laminating wheel 503 in the sliding process in the feeding pipe 2, the laminating wheel 503 is driven to rotate by the first motor 504, after the corn is contacted with the laminating wheel 503, the laminating wheel 503 can drive the corn to slide in the feeding pipe 2 through rotation, the corn can be prevented from being blocked in the feeding pipe 2, in addition, when the laminating wheel 503 drives the corn to slide, the corn pressing driving force can be applied to the corn, the grading effect of the corn in the grading component 6 can be improved, in addition, when the diameter of the corn is larger, the corn is laminated with the laminating wheel 503, the laminating wheel 503 can move backwards through the extrusion positioning spring 501, and when the diameter of the corn is smaller, the laminating wheel 503 can keep lamination with the corn through the rebound of the positioning spring 501, the utility model has the advantages that the laminating wheel 503 can keep lamination with corns with different diameters through position adjustment in the using process, meanwhile, corn kernels are not damaged, the universality of the equipment can be improved, when the corns are pushed by the laminating wheel 503, the outer surface of the corns can be contacted with the rubber laminating layer 613 outside the second driven wheel 612, the rubber laminating layer 613 has better elasticity, the rubber laminating layer 613 can also adapt to corns with different diameters, when the corns slide inside the feeding pipe 2, the second driven wheel 612 can be driven to rotate, after the second driven wheel 612 rotates, the first driven wheel 610 can be driven to rotate through the second driving belt 611, the first driven wheel 610 can rotate through the first driving belt 609, the first driving belt 609 is connected with the second conical teeth 608, the second conical teeth 608 are meshed with the first conical teeth 607, the first conical teeth 607 can drive the second gear 606 to rotate together, the second gear 606 is meshed with the first gear 605, the first gear 605 is sleeved at the outer end of the classifying ring 603, when corn slides inside the feeding pipe 2, the rotating shaft 602 and the classifying ring 603 can be driven to rotate inside the classifying seat 601, after the corn enters inside the classifying seat 601, the classifying teeth 604 inside the classifying ring 603 can separate corn grains and cob cores on the surface of the corn through rotation and friction, through the operation, the classifying ring 603 is driven to rotate through friction when the corn falls, the additional motor is omitted from being arranged inside the classifying ring 603, the manufacturing cost of the equipment can be reduced, in addition, because the rotating of the classifying ring 603 is driven by the displacement of the corn, the moving speed of the corn and the rotating speed of the classifying ring 603 have higher synchronism, the situation that the corn grains are more broken or uneven in stripping caused by mismatching of the moving speed of the corn and the rotating speed of the classifying ring 603 can be avoided, this can promote the effect of dialling the grain of equipment, the maize is dialled the grain after accomplishing, the stick core of dialling the grain and the maize grain can get into the air-drying box 801 inside together, the inside first filter screen 803 of air-drying box 801 is the slope form, through the filtration of first filter screen 803 and the work of cooperation vibrating motor 804, can make the maize grain pass first filter screen 803 and fall to pressure plate 805 surface, and the stick core can slide on first filter screen 803 and can get into discharge pipe 12 through stick core exit tube 11 and discharge, after the maize grain falls to pressure plate 805, work through aspirator 10, can make the air in the air-drying box 801 and the aqueous vapor on the maize grain discharge through communicating pipe 9, this makes the equipment can carry out quick air-drying to the maize grain in the air-drying box 801, and after the maize grain on the pressure plate 805 is too much, pressure spring 806 can be pressed and drive pressure plate 805 down, this makes the maize grain can get into the inside of outlet pipe 808 through U type pipe 807, and flows into the hopper 1303, the hopper 1303 works through the air outlet box 1301, high-speed air flow can enter the hopper 1303 through the air outlet pipe 1302, so that the high-speed air flow can blow corn kernels, the corn kernels with larger weight are less influenced by the air flow and still move towards the bottom of the hopper 1303 through the blowing of the high-speed air flow, the small-weight rod core fragments can enter the exhaust pipe 1304 due to the blowing of the air flow, the second filter screen 1305 is arranged in the exhaust pipe 1304, the small-weight rod core fragments pass through the second filter screen 1305 to enter the slag collecting box 1306 to be stored after approaching the second filter screen 1305, the corn kernels can be blocked by the second filter screen 1305 due to the error blowing of the high-speed air flow into the exhaust pipe 1304, the blocked corn kernels can roll back into the hopper 1303 due to the inclined exhaust pipe 1304, the operation can effectively separate the rod core fragments from the corn kernels, this can avoid the mixing of the corn kernels into the corn kernels to affect the taste thereof, in addition, the air drying of the air drying box 801 can facilitate the blowing of the corn kernels by high-speed air flow, and the lifting baffle of the pressure plate 805 can facilitate the corn kernels to flow in the material leakage box 1303 at a slower flow rate, so that the condition that the screening is difficult due to the overlarge flow rate of the corn kernels can be avoided, the screened corn kernels can enter the bottom of the box 1 through the corn kernel outlet pipe 1307, the bottom of the box 1 is in a boiler-shaped structure, the water body at the bottom of the box 1 is heated through the heating layer 15, the corn can be steamed, the corn kernels entering the discharging pipe 12 can enter the wrapping box 1604, the corn kernels in the wrapping box 1604 can be steamed together in the corn steaming process by the heating layer 15, the rotating shaft 1602 is driven to rotate by the second motor 1601 in the corn kernel steaming process, the stirring paddle 1603 can be used to break up the cob, which can allow juice and flavor in the cob to be transferred to the corn kernels through the liquid drain 1605, which can greatly promote the corn flavor and flavor of the corn kernels, while the cob residues can be caught by the third filter net 1606 to prevent the residues from contacting the corn kernels.

In summary, this cooking machine convenient to screening edulcoration, when using, at first, after the staff drops into pan feeding pipe 2 with the maize that needs to dial the grain in, can make maize slide in pan feeding pipe 2 inside, the in-process that maize slides in pan feeding pipe 2 inside, can contact with laminating wheel 503, laminating wheel 503 is driven rotatory by first motor 504, after maize contacts with laminating wheel 503, laminating wheel 503 can be through rotatory drive promotion maize slide in pan feeding pipe 2 inside, this can avoid maize to take place to block up in pan feeding pipe 2 inside, in addition laminating wheel 503 drives maize when the maize slides, can exert pressure the driving force on maize, this can promote the grain classification effect of maize in the grain classification subassembly 6 inside, in addition when maize diameter is great, laminating wheel 503 can be through extrusion positioning spring 501 after the laminating of maize, and when maize diameter is less, laminating wheel 503 can keep laminating through the resilience of positioning spring 501 with maize, this makes laminating wheel 503 keep laminating through positioning with the maize of different diameters, simultaneously, the wide use equipment that can not cause the damage to the promotion maize, this can be general.

Then when the corn is pushed by the laminating wheel 503, the outer surface of the corn can be contacted with the rubber laminating layer 613 outside the second driven wheel 612, the rubber laminating layer 613 has better elasticity, so that the rubber laminating layer 613 can also adapt to corn with different diameters, the corn can drive the second driven wheel 612 to rotate when sliding inside the feeding pipe 2, after the second driven wheel 612 rotates, the first driven wheel 610 can be driven to rotate through the second driving belt 611, the first driven wheel 610 can rotate through the first driving belt 609, the first driving belt 609 is connected with the second cone gear 608, the second cone gear 608 is meshed with the first cone gear 607, the first cone gear 607 can drive the second gear 606 to rotate together, the second gear 606 is meshed with the first gear 605, the first gear 605 is sleeved at the outer end of the classifying ring 603, when corn slides on the inner side of the feeding pipe 2, the rotating shaft 602 and the classifying ring 603 can be driven to rotate on the inner side of the classifying seat 601, after the corn enters the inner side of the classifying seat 601, the classifying teeth 604 on the inner side of the classifying ring 603 can separate corn kernels from corncobs on the surface of the corn through rotation and friction, through the operation, the classifying ring 603 is driven to rotate through friction when the corn falls, an additional motor can be omitted from being arranged in the classifying ring 603, the manufacturing cost of the equipment can be reduced, in addition, the rotating of the classifying ring 603 is driven by corn displacement, the moving speed of the corn and the rotating speed of the classifying ring 603 have higher synchronization degree, the situation that corn kernels are broken more or uneven stripping occurs when the corn kernels are separated due to mismatching of the moving speed of the corn and the rotating speed of the classifying ring 603 can be avoided, and the grain stirring effect of the equipment can be improved;

after the corn is stirred, the corn kernels and the rod cores in the air drying box 801 are inclined, the corn kernels pass through the first filter screen 803 and fall to the surface of the pressure plate 805 through the filtering of the first filter screen 803 and the working of the vibration motor 804, the rod cores can slide on the first filter screen 803 and enter the discharging pipe 12 through the rod core pipe 11 to be discharged, after the corn kernels fall to the pressure plate 805, the suction machine 10 is used to enable air in the air drying box 801 and moisture on the corn kernels to be discharged through the communicating pipe 9, so that the device can rapidly air-dry the corn kernels in the air drying box 801, after the corn kernels on the pressure plate 805 are excessive, the pressure spring 806 is pressed to drive the pressure plate 805 to move downwards, so that the corn kernels can enter the inside of the outflow pipe 808 through the U-shaped pipe 807 and flow to the inside of the discharging box 1303, in the hopper 1303, the high-speed air flow can enter the hopper 1303 through the air outlet pipe 1302 by working of the air outlet box 1301, so that the high-speed air flow can blow the corn kernels, the corn kernels with larger weight are influenced less by the air flow by blowing of the high-speed air flow and still move towards the bottom of the hopper 1303, the rod core fragments with smaller weight can enter the exhaust pipe 1304 by blowing of the air flow, the exhaust pipe 1304 is internally provided with a second filter screen 1305, the rod core fragments with smaller weight pass through the second filter screen 1305 to enter the slag collecting box 1306 for storage after approaching the second filter screen 1305, the corn kernels which are blown into the exhaust pipe 1304 by the high-speed air flow can be blocked by the second filter screen 1305, the blocked corn kernels can roll back into the hopper 1303 by the inclined exhaust pipe 1304, the rod core fragments and the corn kernels can be effectively separated by the operation, the rod core fragments can be prevented from being mixed into the corn kernels to influence the taste, in addition, the rod core fragments can be blown by high-speed air flow more easily due to the air drying of the air drying box 801, and corn kernels can flow in the material leakage box 1303 at a slower flow rate due to the lifting material blocking of the pressure plate 805, so that the condition of difficult screening caused by overlarge flow rate of the corn kernels can be avoided;

finally, the screened corn kernels can enter the bottom of the box body 1 through the corn kernel outlet pipe 1307, the bottom of the box body 1 is of a boiler-shaped structure, the water body at the bottom of the box body 1 is heated through the heating layer 15, corn can be steamed, the corn kernels enter the rod core of the discharging pipe 12 and can enter the wrapping box 1604, the rod core in the wrapping box 1604 can be steamed together in the corn steaming process of the heating layer 15, the rotating shaft 1602 is driven to rotate through the second motor 1601 in the corn kernel steaming process, the stirring paddle 1603 can break the rod core, juice and flavor in the rod core can be transmitted into the corn kernels through the liquid leakage groove 1605, corn flavor and flavor of the corn kernels can be greatly improved, and residues of the rod core can be held by the third filter net 1606 so as to avoid the residues from being contacted with the corn kernels.

The embodiments of the invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

Claims

1. The utility model provides a cooking machine convenient to screening edulcoration, its characterized in that, including box (1), classification subassembly (6) and screening subassembly (13), the top outside of box (1) is connected with pan feeding pipe (2), and the inboard of pan feeding pipe (2) has been seted up logical groove (3), the outside both sides of pan feeding pipe (2) are provided with supporting seat (4), and the inboard of supporting seat (4) is settled there is pan feeding subassembly (5), classification subassembly (6) are settled in the end of pan feeding pipe (2), and the outer end of classification subassembly (6) is settled there is first baffle (7), the bottom outside of first baffle (7) is provided with air-dry subassembly (8), and the top outer end of air-dry subassembly (8) has been seted up communicating pipe (9), the end of communicating pipe (9) is provided with aspirator (10), the outside middle section of air-dry subassembly (8) is provided with excellent core exit tube (11), and the end-to-end connection of excellent core tube (11) has row material pipe (12), screening subassembly (13) are settled in the bottom of air-dry subassembly (8) and the bottom of the outside of screening subassembly (7) is settled there is first baffle (14), the bottom of the outside of first baffle (7) is provided with the outside of the second baffle (14), and the middle end of the bottom of the box body (1) is provided with a crushing component (16).

2. The cooking machine convenient for screening and impurity removal according to claim 1, wherein the feeding component (5) comprises a positioning spring (501), a fixed seat (502), a fitting wheel (503) and a first motor (504), the outer end of the positioning spring (501) is connected with the fixed seat (502), the fitting wheel (503) is arranged on the inner side of the fixed seat (502), and the first motor (504) is arranged on the outer end of the fixed seat (502).

3. The cooking machine convenient for screening and impurity removal according to claim 2, wherein the positioning springs (501) are elastically connected with the fixed seat (502), and the fixed seat (502) is symmetrically distributed with two along the vertical center line of the feeding pipe (2).

4. The cooking machine with convenient screening and impurity removal according to claim 1, wherein the classification assembly (6) comprises a classification seat (601), a rotation shaft (602), a classification ring (603), classification teeth (604), a first gear (605), a second gear (606), a first bevel gear (607), a second bevel gear (608), a first driving belt (609), a first driven wheel (610), a second driving belt (611), a second driven wheel (612) and a rubber attaching layer (613), the rotation shaft (602) is arranged at the top of the inner side of the classification seat (601), the classification ring (603) is connected with the classification ring (603) at the outer side of the bottom of the rotation shaft (602), the classification ring (603) is internally provided with classification teeth (604), the outer end of the classification ring (603) is provided with a first gear (605), the right end of the first gear (605) is provided with a second gear (606), the outer side of the top of the second gear (606) is provided with a first bevel gear (607), the outer side of the top of the first gear (607) is connected with the bevel gear (608), the outer side of the first gear (606) is connected with the outer side of the second driving belt (608), and a second driven wheel (612) is arranged on one side, far away from the first driven wheel (610), of the second transmission belt (611), and the outer end of the second driven wheel (612) is connected with a rubber laminating layer (613).

5. The cooking machine facilitating screening and impurity removal according to claim 4, wherein the classification ring (603) is in socket connection with the first gear (605), and the first gear (605) is in mesh with the second gear (606).

6. The cooking machine convenient for screening and impurity removal according to claim 1, wherein the air drying component (8) comprises an air drying box (801), a feed inlet (802), a first filter screen (803), a vibration motor (804), a pressure plate (805), a pressure spring (806), a U-shaped pipe (807) and an outflow pipe (808), the feed inlet (802) is formed in the outer side of the top of the air drying box (801), the first filter screen (803) is arranged on the inner side of the top of the air drying box (801), the vibration motor (804) is arranged at the outer end of the air drying box (801), the pressure plate (805) is arranged at the middle end of the inner side of the air drying box (801), the pressure spring (806) is arranged on the outer side of the bottom of the pressure plate (805), the U-shaped pipe (807) is connected to the two sides of the outer side of the air drying box (801), and the outflow pipe (808) is connected to the tail end of the U-shaped pipe (807).

7. The cooking machine facilitating screening and impurity removal according to claim 6, wherein the pressure plate (805) is elastically connected with the pressure spring (806), and an outer contour of the pressure plate (805) is fitted with an inner contour of the air-drying box (801).

8. The cooking machine convenient for screening and impurity removal according to claim 1, wherein the screening assembly (13) comprises an air outlet box (1301), an air outlet pipe (1302), a material outlet box (1303), an exhaust pipe (1304), a second filter screen (1305), a slag collecting box (1306) and a corn grain outlet pipe (1307), the air outlet box (1301) is connected with the air outlet pipe (1302) on two outer sides, the tail end of the air outlet pipe (1302) is connected with the material outlet box (1303), the exhaust pipe (1304) is arranged on one side, far away from the air outlet pipe (1302), of the material outlet box (1303), the second filter screen (1305) is arranged on the inner side of the exhaust pipe (1304), the slag collecting box (1306) is connected with the tail end of the exhaust pipe (1304), and the corn grain outlet pipe (1307) is connected with the outer side of the bottom of the material outlet box (1303).

9. The cooking machine for facilitating screening and impurity removal according to claim 8, wherein the air outlet pipe (1302) is communicated with the exhaust pipe (1304) through the blow-out box (1303), and the air outlet pipe (1302) is obliquely arranged with the exhaust pipe (1304).

10. The cooking machine convenient for screening and impurity removal according to claim 1, wherein the crushing assembly (16) comprises a second motor (1601), a rotating shaft (1602), a stirring paddle (1603), a packaging box (1604), a liquid leakage groove (1605) and a third filter screen (1606), an output end of the second motor (1601) is connected with the rotating shaft (1602), an outer end of the rotating shaft (1602) is connected with the stirring paddle (1603), the packaging box (1604) is arranged at an outer end of the stirring paddle (1603), the liquid leakage groove (1605) is arranged on the surface of the packaging box (1604), and the third filter screen (1606) is arranged on the inner side of the liquid leakage groove (1605).