CN112056383A - Processing technology of lotus seed beans - Google Patents

Abstract

The application relates to a processing technology of lotus seed beans, which relates to the field of food processing and comprises the following steps: s1, sampling at a base; s2, purchasing raw materials; s3, removing filaments; s4, entering a constant temperature warehouse; s5, feeding; s6, air separation; s7, cleaning; s8, removing foreign matters; s9, cooking; s10, primary cooling; s11, secondary cooling; s12, vibrating and draining; s13, IQF quick-freezing; s14, packaging the semi-finished product; and S15, storing in a low-temperature warehouse. This application has the effect that improves the screening capacity of impurity in the lotus seed beans.

Description

Processing technology of lotus seed beans

Technical Field

The application relates to the field of food processing, in particular to a processing technology of lotus seed beans.

Background

The lotus seed beans are also called as holland beans, are one of bean vegetables with higher nutritive value, have delicious flavor, tender tips, tender pods and seeds, are tender in quality and are very popular to people. The sweet broad pea contains rich dietary fiber, can prevent constipation, has the function of clearing intestines, and also has the functions of delaying senility, beautifying and health care. The sweet broad pea is easy to process, store and transport, and is one of promising export foreign exchange special vegetable varieties

In the related technology, for example, the Chinese patent with the publication number of CN108013123A, a production process of quick-frozen Dutch beans, comprises the procedures of selecting Dutch bean blocks, cleaning, sterilizing and quick-freezing. The quality of the fresh sweet broad pea raw material is completely maintained by the quick-frozen sweet broad pea in a low-temperature mode without any preservative or additive, the nutrition in the raw sweet broad pea is not lost in the quick-frozen transportation, the original taste and flavor of the sweet broad pea are maintained, and the product storage and transportation are convenient.

With respect to the related art among the above, the inventors consider that the following drawbacks exist: when the screening is carried out on the lotus seeds, a large amount of lotus seeds can be screened together, so that impurities can be hindered by the lotus seeds, the problem of incomplete screening is caused, and the improvement space is provided.

Disclosure of Invention

In order to improve the screening capacity of impurities in the lotus seed beans, the application provides a processing technology of the lotus seed beans.

The application provides a processing technology of lotus seed beans, which adopts the following technical scheme:

a processing technology of lotus seed beans comprises the following steps:

s1, base sampling: controlling the base raw materials 5 days before harvesting, sampling by a basic value maintainer, submitting for inspection, and performing pesticide residue inspection;

s2, raw material purchase: the raw materials are fresh, the tissues are tender, no insects are generated, pesticide residues cannot be detected, and the maturity is 75-85%;

s3, removing filaments: removing shreds from the single side of the lotus seed kernel bean;

s4, entering a constant temperature warehouse: the raw materials are moved into a constant temperature warehouse, marked by a hanging plate and placed in order;

s5, feeding: uniformly feeding the lotus seed beans;

s6, air separation: taking out the lotus seed beans from the bag, conveying the lotus seed beans to a winnowing machine through a conveying belt, and removing impurities;

s7, cleaning: feeding materials automatically into a bubble cleaning machine through a conveyor for cleaning, and removing floating impurities;

s8, foreign matter removal: removing foreign matters by using a magic tape in an automatic roller type manner;

s9, cooking: after cleaning, automatically putting the mixture into a cooking pot for cooking, wherein the temperature is 98-100 ℃, the water depth is 4-7.5cm, and the time is 60 seconds;

s10, primary cooling: after cooking, the mixture enters a cooler for normal-temperature water flow cooling, the water temperature is below 25 ℃, and the product temperature is below 30 ℃;

s11, secondary cooling: after the first cooling, automatically flowing cold water for cooling again, wherein the water temperature is below 10 ℃, and the product temperature is below 15 ℃;

s12, vibration draining: cooling and then entering a vibration tank to remove surface moisture;

s13, quick freezing by IQF: feeding the materials into an IQF quick-freezing machine through a conveyor, a material distribution sieve and uniform material distribution;

s14, packaging the semi-finished product: weighing the quick-frozen semi-finished product, and packaging the quick-frozen semi-finished product inside and outside;

s15, storing in a low-temperature warehouse: and placing the packaged product on a backing plate, and storing the product in a warehouse.

Through adopting above-mentioned technical scheme, the lotus seed beans are when processing, at first sample through the base, thereby guarantee the quality of the crops of source, go to again and carry out the purchase of raw materials, go the lotus seed beans to go the silk again, and go into the constant temperature warehouse in order to reserve, when needs use, throw the material through taking out the lotus seed beans, and carry out the selection by winnowing through the air separator, thereby get rid of impurity, wash again and carry out the secondary of foreign matter and get rid of, again to the lotus seed beans cook, and carry out primary cooling and secondary cooling, thereby conveniently save and pack, thereby it accomplishes the processing to then finish through vibration waterlogging caused by excessive rainfall and IQF quick-freeze, carry out semi-manufactured goods packing and low-temperature storehouse at last and preserve.

Preferably, the air separator includes:

the workbench is arranged on the ground and is used for installing the transmission assembly;

a transport assembly for transporting the lotus seed beans;

the working cover is arranged on the workbench, is covered on the transmission assembly for transmitting the lotus seed beans, and is provided with the blowing assembly, the collecting assembly and the pushing assembly;

the blowing assembly is arranged on the working cover and is used for blowing impurities in the lotus seed beans on the transmission assembly into the collection assembly;

the collecting assembly is arranged on the working cover and is matched with the blowing assembly to collect the blown impurities;

the vibrating component is arranged on the transmission component and is used for vibrating the lotus seed beans on the transmission component to dispersedly adjust the lotus seed beans;

the material pushing assembly is arranged on the working cover and used for pushing the piled lotus seed beans to be flat.

Through adopting above-mentioned technical scheme, through the transmission assembly on the workstation, transmit the lotus seed beans, thereby carry out the pay-off, and the subassembly is collected in the cooperation of the subassembly of blowing on the work cover, thereby blow up the lotus seed beans on the transmission assembly, and collect impurity, the lotus seed beans on the vibration subassembly will be transmitted the subassembly and vibrate, thereby also turn over the impurity of bottom, and push away the lotus seed beans through pushing away the material subassembly and flatten, thereby tile accumulational lotus seed beans, reduce the dead entry of card.

Preferably, the transmission assembly includes:

the transmission motor is arranged on the workbench and is used for driving the transmission roller to rotate;

the transmission roller is rotatably connected to the workbench;

the conveying belt is arranged on the conveying rollers, is used for driving the conveying rollers to synchronously convey and is used for conveying the lotus seed beans;

the transmission plates are pivoted on two sides of the workbench and are used for transmitting the lotus seed beans;

and the torsional spring is arranged on the transmission plate and is used for driving the transmission plate to turn over downwards.

Through adopting above-mentioned technical scheme, through the setting of transmission motor to drive the transmission roller and rotate, and the conveyer belt cooperates with the transmission roller, thereby transports the lotus seed beans on the conveyer belt, and the transmission board will be connected with other stations, cooperates the setting of torsional spring, in order to carry out the self-adaptation with the transmission board, and the practicality is strong.

Preferably, the vibration assembly includes a vibration plate disposed on the worktable, a first vibration member disposed on the vibration plate, a second vibration member disposed on the vibration plate, and a third vibration member disposed on the vibration plate, and the first vibration member, the second vibration member, and the third vibration member vibrate the conveyor belt on the conveying assembly;

the first vibrating member includes:

the vibrating frame is arranged on the vibrating plate and is used for mounting a vibrating motor;

the vibration motor is arranged on the vibration rack and is used for driving the first main shaft to rotate;

the first main shaft is connected with an output shaft of the vibration motor and synchronously drives the first vibrating rod to rotate;

the first vibrating bar is arranged on the first main shaft and is used for vibrating a conveying belt on the conveying assembly so as to vibrate the lotus seed beans;

the first bearing seats are symmetrically arranged on two sides of the first main shaft, arranged on the vibrating plate and used for mounting the first bearing;

the first bearing is arranged on the first bearing seat and is used for the first main shaft to penetrate and fix;

the first bearing cover is arranged on the first bearing seat and used for pressing and fixing the first bearing.

Through adopting above-mentioned technical scheme, vibrate the conveyer belt through first vibrating piece, second vibrating piece and the third vibrating piece on the vibration board to the lotus seed beans on the conveyer belt vibrate, jump up the impurity of lower extreme, thereby wind blows. Vibrating motor on the vibration frame drives first main shaft and rotates to drive first vibration board and strike the conveyer belt, first bearing and the first bearing lid on the cooperation first bearing frame, thereby play transmission and stable effect.

Preferably, the second vibrating member includes:

the second main shaft is arranged on one side of the first main shaft and synchronously drives the second vibrating rod to rotate;

the second vibrating spear is arranged on the second main shaft and is used for vibrating the conveying belt on the conveying assembly so as to vibrate the lotus seed beans;

the second bearing seats are symmetrically arranged on one side of the second main shaft, arranged on the vibrating plate and used for mounting the second bearing;

the second bearing is arranged on the second bearing seat and is used for the second main shaft to penetrate and fix;

a second bearing cover arranged on the second bearing seat and used for pressing and fixing the second bearing

The driving gear is arranged on the first main shaft and is meshed with the intermediate gear;

the gear rack is arranged on the vibrating plate and is used for rolling and connecting the intermediate gear;

the intermediate gear is connected to the gear rack in a rolling mode and is meshed with the driving gear and the driven gear;

and the first driven gear is arranged on the second main shaft and is coaxially arranged.

Through adopting above-mentioned technical scheme, through the main epaxial second vibrting spear of second to carry out the vibration to the conveyer belt, improved the scope of vibration, and the use of second bearing seat cooperation second bearing and second bearing lid, thereby fix the second main shaft, the intermediate gear on the driving gear cooperation carrier, thereby drive first driven gear and move, the practicality is strong.

Preferably, the third vibrating member includes:

the third main shaft is arranged on the other side of the first main shaft and synchronously drives the third vibrating rod to rotate;

the third vibrating spear is arranged on the third main shaft and is used for vibrating the conveying belt on the conveying assembly so as to vibrate the lotus seed beans;

the third bearing seats are symmetrically arranged on the other side of the third main shaft, arranged on the vibrating plate and used for mounting a third bearing;

the third bearing is arranged on the third bearing seat and is used for the third main shaft to penetrate and fix;

the third bearing cover is arranged on the third bearing seat and is used for tightly pressing and fixing the third bearing;

the second driven gear is arranged on the third main shaft and is coaxially arranged;

the shaft bracket is arranged on the vibrating plate and is used for installing the rotating bearing seat;

the rotating bearing block is arranged on the shaft bracket and is used for installing the rotating bearing;

the rotating bearing is arranged on the rotating bearing seat and is used for installing the rotating shaft;

the rotating bearing cover is arranged on the rotating bearing seat and is used for pressing and fixing the rotating bearing;

and the rotating shaft is arranged on the rotating bearing and is meshed with the driving gear and the second driven gear.

Through adopting above-mentioned technical scheme, through the main epaxial third vibrting spear of third to carry out the vibration to the conveyer belt, improved the scope of vibration, the rotating bearing seat on the pedestal cooperates rolling bearing and rolling bearing lid, thereby supplies the axis of rotation to carry out intermeshing, thereby has improved the scope of vibration, and the practicality is strong.

Preferably, the blowing assembly includes:

the bracket is arranged on the workbench and used for installing a fan motor;

the fan motor is arranged on the bracket and is used for driving the rotating column to rotate;

a rotating column installed on an output shaft of the fan motor;

a rotating blade provided on the rotating blade and rotating to blow out impurities;

the connecting ring is arranged on the rotating blade and fixedly connected with the fan blade;

the fan blades are arranged on the connecting rings and used for rotating so as to blow out impurities;

the fan cover is inserted into the insertion hole and is used for installing and placing the rotating column, the rotating blade, the connecting ring and the fan blade;

the limiting ring is arranged on the fan cover and mutually limits the position of the working cover so as to control the inserting distance of the fan cover;

the locking ring is in threaded fit with the fan cover and is used for fixing the fan cover;

the air thread is arranged on the inner side wall of the fan cover and is opposite to the rotating direction of the rotating column;

the work cover is provided with an insertion hole for inserting the fan cover.

Through adopting above-mentioned technical scheme, the support is fixed fan motor, rotate the post simultaneously and drive through fan motor, and rotate the post and drive the rotation leaf simultaneously, go-between and flabellum, thereby carry out the circulation of air, carry out the provision of wind-force through interior little circulation and interior major loop two kinds of modes, therefore, the clothes hanger is strong in practicability, and spacing ring cooperation locking ring is fixed the fan cover, thereby improve the ability of gathering wind, and the air screw thread is with the power of further improvement peripheral air, possess the effect of assembling simultaneously.

Preferably, the collection assembly comprises:

the clamping frame is arranged on the working cover and used for clamping and fixing the clamping sheet;

the clamping sheet is connected with one end of the cloth pipe and is fixedly clamped with the clamping frame;

the pipe distribution is respectively connected with the clamping piece and the collecting vehicle for waste material transmission;

the collecting vehicle is placed on the ground for collecting waste materials;

the moving plate is arranged at the bottom of the collecting vehicle and is used for rolling and mounting wheels;

the wheels are arranged on the movable plate and are in rolling connection with the ground;

the insertion piece is arranged on one side of the moving plate close to the collecting vehicle;

the insertion groove is arranged on the collecting vehicle and is used for inserting and fixing the insertion piece;

the buckle is arranged on one side of the movable plate close to the collecting vehicle;

the clamping groove is arranged on the collecting vehicle and used for clamping and fixing the buckle;

the air outlet cylinder is arranged on the collecting vehicle and is used for discharging waste materials;

the air outlet net is arranged on the air outlet cylinder and used for discharging air;

the pressure spring is arranged between the air outlet net and the rotary cover and is used for fixing the air outlet net;

the screw cap is matched with the air outlet cylinder in a threaded manner and is used for compressing the pressure spring;

the first assembling hole is arranged on the air outlet net and used for installing the pressure spring;

and the second assembling hole is arranged on the rotary cover and used for installing the pressure spring.

Through adopting above-mentioned technical scheme, through the cooperation of joint frame with the joint piece to be connected stringing and work cover, the setting of the movable plate on the collection vehicle in addition cooperates the buckle and inserts the piece, thereby dismantles, convenient maintenance, and the setting of air outlet net supplies inside air to discharge to the external world, and fixes through pressure spring and spiral cover, and the practicality is strong.

Preferably, the collection assembly further comprises:

the rubber sleeve is arranged on the collecting vehicle and is matched and fixed with the cloth pipe;

the placing groove is arranged on the collecting vehicle and used for installing and fixing the rubber sleeve;

the fixed block is arranged on the collecting vehicle and is used for inserting and matching the fixed column;

one end of the binding rope is connected with the fixed block, and the other end of the binding rope is connected with the fixed ball and wound on the cloth cylinder;

a fixing column inserted into the fixing block;

the fixing cover is in threaded fit with the fixing column and is used for fixing the fixing ball;

the fixing ball is connected to the fixing column in a sliding manner and is fixedly connected with the binding rope;

the movable groove is arranged on the fixed column and is used for the sliding connection of the fixed ball;

the limiting disc is integrally arranged on the fixing column;

the locking groove is arranged on the fixing block and is used for inserting and fixing the limiting disc and the fixing column;

the rope groove is arranged on the fixing block, the fixing column and the limiting disc, is used for the binding rope to movably slide and is communicated with the movable groove;

the elastic rope is arranged on one side of the cloth cylinder close to the collecting vehicle and used for gathering the cloth cylinder;

the connector is arranged at one end of the elastic rope;

the connecting block is arranged at the other end of the elastic rope and is matched and fixed with the connector;

the connecting groove is arranged on the connecting block and is used for the sliding fit of the connecting head;

the fixing ring is integrally arranged on the connecting block and mutually limited with the threaded cylinder;

and the thread cylinder is in thread fit on the connector and the connecting block so as to cover the connecting groove and is used for fixing the connector and the connecting block.

Through adopting above-mentioned technical scheme, through the setting of binding rope to fix cloth section of thick bamboo and collection vehicle, thereby accomplish and be connected, fixed ball places on the fixed column in addition, thereby makes the fixed column when fixing, can slide, with the position of adjusting binding rope.

Preferably, the pusher assembly comprises:

the material pushing frame is arranged on the working cover and used for installing the material pushing motor and the pushing block;

the pushing motor is arranged on one side of the pushing frame, which is far away from the ground, and is used for driving the rotating disc;

the rotating disc is arranged on one side of the material pushing frame close to the ground and is fixedly connected with a rotating shaft of the material pushing motor;

the rotating shaft is arranged on one side of the rotating disc, which is far away from the material pushing frame;

the rotating rod is rotatably connected to the rotating shaft;

the pushing block is arranged on one side, close to the ground, of the material pushing frame and is used for the rotating rod to movably slide;

the material pushing rod is connected to the pushing block in a sliding mode and is longitudinally pivoted and fixed with the rotating rod;

the material pushing plate is arranged on one side, away from the rotating rod, of the material pushing rod and used for pushing down the stacked lotus seed beans.

Through adopting above-mentioned technical scheme, drive the rolling disc through pushing away the material motor and rotate, pivot and dwang are mutually supported in addition to control ejector pad and be reciprocating motion, carry out reciprocating motion with the scraping wings that drives on the catch bar, thereby push away accumulational lotus seed beans, and the practicality is strong.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the screening capability of impurities in the lotus seed beans is improved;

2. reduce the stacking and transportation condition of the lotus seed beans.

Drawings

Fig. 1 is a schematic structural view of a winnowing machine.

Fig. 2 is a schematic structural view of the transmission assembly and the vibration assembly.

Fig. 3 is a schematic view of the mounting of the first vibrating member, the second vibrating member, and the third vibrating member.

Fig. 4 is a schematic structural view of the blowing assembly.

Figure 5 is an exploded view of the pusher assembly one.

Fig. 6 is an exploded view of the pusher assembly.

Fig. 7 is an exploded view of the first collection assembly.

Fig. 8 is an exploded view of the second collection assembly.

Fig. 9 is an enlarged schematic view of the fixing post of the portion a in fig. 8.

Fig. 10 is an enlarged schematic view of the connection head at the B portion in fig. 8.

Fig. 11 is a first schematic view of the installation of the air outlet net.

Fig. 12 is a second schematic view of the installation of the air outlet net.

Description of reference numerals: 1. a winnowing machine; 2. a work table; 3. a transmission assembly; 300. a transmission motor; 301. a transfer roller; 302. a conveyor belt; 303. a transmission plate; 304. a torsion spring; 4. a working cover; 5. a blowing assembly; 500. a support; 501. a fan motor; 502. rotating the column; 503. rotating the blades; 504. a connecting ring; 505. a fan blade; 506. a fan cover; 507. a limiting ring; 508. locking a ring; 509. air threads; 510. an insertion hole; 6. a collection assembly; 600. clamping the frame; 601. a clip sheet; 602. pipe distribution; 603. a collection vehicle; 604. moving the plate; 605. a wheel; 606. an insert sheet; 607. inserting the groove; 608. buckling; 609. a card slot; 610. an air outlet cylinder; 611. an air outlet net; 612. a pressure spring; 613. screwing a cover; 614. a first assembly hole; 615. a second assembly hole; 616. a rubber sleeve; 617. a placement groove; 618. a fixed block; 619. binding the rope; 620. fixing a column; 621. a fixed cover; 622. fixing the ball; 623. a movable groove; 624. a limiting disc; 625. a locking groove; 626. rope grooves; 627. a bungee cord; 628. a connector; 629. connecting blocks; 630. connecting grooves; 631. a fixing ring; 632. a threaded barrel; 7. a vibrating assembly; 70. a vibrating plate; 71. a first vibrating member; 710. vibrating the frame; 711. a vibration motor; 712. a first main shaft; 713. a first vibrating rod; 714. a first bearing housing; 715. a first bearing; 716. a first bearing cover; 72. a second vibrating member; 720. a second main shaft; 721. a second vibrating rod; 722. a second bearing housing; 723. a second bearing; 724. a second bearing cover; 725. a driving gear; 726. a gear carrier; 727. an intermediate gear; 728. a first driven gear; 73. a third vibrating member; 730. a third main shaft; 731. a third vibrating rod; 732. a third bearing seat; 733. a third bearing; 734. a third bearing cover; 735. a second driven gear; 736. a pedestal; 737. rotating the bearing seat; 738. a rotating bearing; 739. rotating the bearing cap; 740. a rotating shaft; 8. a material pushing assembly; 800. a material pushing frame; 801. a material pushing motor; 802. rotating the disc; 803. a rotating shaft; 804. rotating the rod; 805. a push block; 806. a material pushing rod; 807. a material pushing plate.

Detailed Description

The present application is described in further detail below with reference to figures 1-12.

The embodiment of the application discloses a processing technology of lotus seed beans, which comprises the following steps:

s1, base sampling: controlling the base raw materials 5 days before harvesting, sampling by a basic value maintainer, submitting for inspection, and performing pesticide residue inspection;

s2, raw material purchase: the raw materials are fresh, the tissues are tender, no insects are generated, pesticide residues cannot be detected, and the maturity is 75-85%;

s3, removing filaments: removing shreds from the single side of the lotus seed kernel bean;

s4, entering a constant temperature warehouse: the raw materials are moved into a constant temperature warehouse, marked by a hanging plate and placed in order;

s5, feeding: uniformly feeding the lotus seed beans;

s6, air separation: the lotus seed beans are taken out of the bag and sent to a winnowing machine 1 through a conveying belt to remove impurities;

s7, cleaning: feeding materials automatically into a bubble cleaning machine through a conveyor for cleaning, and removing floating impurities;

s8, foreign matter removal: removing foreign matters by using a magic tape in an automatic roller type manner;

s9, cooking: after cleaning, automatically putting the mixture into a cooking pot for cooking, wherein the temperature is 98-100 ℃, the water depth is 4-7.5cm, and the time is 60 seconds;

s10, primary cooling: after cooking, the mixture enters a cooler for normal-temperature water flow cooling, the water temperature is below 25 ℃, and the product temperature is below 30 ℃;

s11, secondary cooling: after the first cooling, automatically flowing cold water for cooling again, wherein the water temperature is below 10 ℃, and the product temperature is below 15 ℃;

s12, vibration draining: cooling and then entering a vibration tank to remove surface moisture;

s13, quick freezing by IQF: feeding the materials into an IQF quick-freezing machine through a conveyor, a material distribution sieve and uniform material distribution;

s14, packaging the semi-finished product: weighing the quick-frozen semi-finished product, and packaging the quick-frozen semi-finished product inside and outside;

s15, storing in a low-temperature warehouse: and placing the packaged product on a backing plate, and storing the product in a warehouse.

Referring to fig. 1 and 2, the air classifier 1 includes a worktable 2, a transmission assembly 3, a work cover 4, a blowing assembly 5, a collection assembly 6, a vibration assembly 7, and a pushing assembly 8.

Wherein the table 2 is placed on the ground and the transport assembly 3 is mounted. And a working cover 4 used for covering the transmission component 3 is also arranged on the working table 2, the blowing component 5, the collecting component 6 and the pushing component 8 are arranged on the working cover 4, and the lotus seed kernel beans enter the working cover 4 from the transmission component 3 and are then winnowed and then are conveyed out from the working cover 4.

The blowing assembly 5 and the collecting assembly 6 are respectively arranged at two ends of the working cover 4 and are correspondingly arranged, so that impurities can be blown to the collecting assembly 6 through the blowing assembly 5. The vibration assembly 7 is disposed on the transmission assembly 3 and is used for vibrating the lotus seed beans on the transmission assembly 3 to dispersedly adjust the lotus seed beans. The material pushing assembly 8 is arranged on the working cover 4 and used for pushing the stacked lotus seed beans flat, so that the lotus seed beans are prevented from being stacked.

Referring to fig. 2, the transfer assembly 3 includes a transfer motor 300, a transfer roller 301, a conveyor belt 302, a transfer plate 303, and a torsion spring 304.

The workbench 2 is provided with a transmission motor 300 through bolts, the workbench 2 is further provided with at least two transmission rollers 301, the transmission rollers 301 are in running fit with the workbench 2, one of the transmission rollers 301 is connected with an output shaft of the transmission motor 300, and the transmission rollers 301 are further provided with a conveyor belt 302. Thereby drive transmission roller 301 through transmission motor 300, transmission roller 301 drives conveyer belt 302, makes conveyer belt 302 drive other transmission rollers 301 and carries out synchronous rotation to carry the lotus seed beans on the conveyer belt 302.

The two sides of the workbench 2 are also pivoted with transmission plates 303, the transmission plates 303 are made of rubber or rubber plastic, and torsion springs 304 are installed at the pivoting positions of the transmission plates 303 and the workbench 2, so as to control the downward overturning motion of the transmission plates 303. The transport plate 303 is used to connect other stations to provide a smooth transition to transport.

Referring to fig. 2 and 3, the vibration assembly 7 includes a vibration plate 70, a first vibration member 71, a second vibration member 72, and a third vibration member 73. The first vibrating member 71 is located between the second vibrating member 72 and the third vibrating member 73.

Wherein the vibration plate 70 is mounted to the table 2 by bolts such that the vibration plate 70 is positioned at the middle of the conveyor belt 302 and does not contact the conveyor belt 302, and the first, second, and third vibrators 71, 72, and 73 are all mounted to the vibration plate 70, and the conveyor belt 302 is struck by the first, second, and third vibrators 71, 72, and 73, thereby vibrating the lotus beans on the conveyor belt 302.

The first vibrating member 71 includes a vibrating frame 710, a vibrating motor 711, a first spindle 712, a first vibrating rod 713, a first bearing housing 714, a first bearing 715, and a first bearing cover 716.

The vibrating frame 710 is fixed to the vibrating plate 70 by bolts, and a vibrating motor 711 is fixed to the vibrating frame 710 by bolts, an output shaft of the vibrating motor 711 is arranged coaxially with the first main shaft 712, and is fixedly connected to drive the first main shaft 712 to rotate. The first vibration rods 713 are uniformly distributed on the first main shaft 712, the first vibration rods 713 are integrally arranged with the first main shaft 712, and the first vibration rods 713 are used for vibrating the conveyor belt 302 on the conveying assembly 3.

The vibration plate 70 is further fixed with a first bearing seat 714 through bolts, and the first bearing seat 714 is located at both sides of the first main shaft 712. And a first bearing 715 is mounted on the first bearing seat 714, and an inner ring of the first bearing 715 is in interference fit with the first main shaft 712. A first bearing cover 716 for pressing and fixing the first bearing 715 is further mounted on the first bearing seat 714 through bolts.

The second vibrator 72 includes a second main shaft 720, a second vibrator 721, a second bearing housing 722, a second bearing 723, a second bearing cover 724, a driving gear 725, a carrier 726, an intermediate gear 727, and a first driven gear 728.

The driving gear 725 is fixed to the first main shaft 712, and is disposed coaxially with the first main shaft 712. The gear frame 726 is fixed to the vibration plate 70 by bolts, and an intermediate gear 727 is rotatably connected to the gear frame 726, and the intermediate gear 727 is engaged with the driving gear 725 and the first driven gear 728.

The vibrating plate 70 is further fixed with a second bearing seat 722 by bolts, and the second bearing seat 722 is located on both sides of the second main shaft 720. And a second bearing 723 is mounted on the second bearing seat 722, and an inner ring of the second bearing 723 is in interference fit with the second main shaft 720. A second bearing cover 724 for pressing and fixing a second bearing 723 is further mounted on the second bearing seat 722 through bolts.

The second main shaft 720 is uniformly distributed with second vibrating rods 721, the second vibrating rods 721 are integrally arranged with the second main shaft 720, and the second vibrating rods 721 are used for vibrating the conveying belt 302 on the conveying assembly 3. A first driven gear 728 is coaxially provided on the second main shaft 720. Thereby driving the driving gear 725 to rotate through the rotation of the first main shaft 712 and transmitting through the intermediate gear 727 to drive the first driven gear 728 to rotate.

The third vibrating member 73 includes a third main shaft 730, a third vibrating rod 731, a third bearing housing 732, a third bearing 733, a third bearing cover 734, a second driven gear 735, a shaft holder 736, a rotary bearing housing 737, a rotary bearing 738 cover, and a rotary shaft 740.

A third bearing 732 is further fixed to the vibration plate 70 by bolts, and the third bearing 732 is located on both sides of the third main shaft 730. And a third bearing 733 is installed on the third bearing seat 732, and an inner ring of the third bearing 733 is interference-fitted with the third main shaft 730. A third bearing cover 734 for pressing and fixing the third bearing 733 is further mounted on the third bearing housing 732 by bolts.

A second driven gear 735 is coaxially provided on the third main shaft 730. The vibration plate 70 is further fixed with a peripheral frame through bolts, a rotation bearing seat 737 is symmetrically arranged on the shaft frame 736 through bolts, a rotation bearing 738 is further installed on the rotation bearing seat 737, an inner ring of the rotation bearing 738 is in interference fit with a rotation shaft 740, and the rotation shaft 740 is used for connecting the driving gear 725 and the second driven gear 735 and is meshed with each other. And a rotary bearing 738 cover for pressing the fixed rotary bearing 738 is mounted on the rotary bearing block 737 by bolts.

When the first main shaft 712 rotates, the driving gear 725 rotates and drives the rotation shaft 740 to rotate to drive the second driven gear 735 to rotate, thereby controlling the third main shaft 730 to rotate to apply the third vibration bar 731 to apply the striking vibration to the conveyor belt 302.

Referring to fig. 4, the blowing assembly 5 includes a bracket 500, a fan motor 501, a rotation column 502, a rotation blade 503, a connection ring 504, fan blades 505, a fan cover 506, a limit ring 507, a locking ring 508, and an air screw 509.

The support 500 is fixed on the workbench 2 through bolts, the fan motor 501 is fixed on the support 500 through bolts, the fan motor 501 is abutted against and pressed against the fan cover 506, the work cover 4 is provided with an insertion hole 510 for inserting the fan cover 506, the fan cover 506 is integrally provided with a limiting ring 507, and the limiting ring 507 and the work cover 4 are mutually limited to control the inserting distance of the fan cover 506.

The fan housing 506 is used for mounting the rotary column 502, the rotary blade 503, the connecting ring 504 and the fan blade 505, and an air screw 509 is further arranged on one side of the fan housing 506 close to the rotary column 502, and the rotation direction of the rotary column 502 of the air screw 509 is opposite. The fan housing 506 is screw-fitted with the locking ring 508, thereby fixing the fan cover to the working cover 4.

A rotating column 502 is fixed on an output shaft of the fan motor 501, a rotating blade 503 is integrally arranged on the rotating column 502, a connecting ring 504 is further integrally arranged on one side of the rotating blade 503 far away from the rotating column 502, and a fan blade 505 is integrally arranged on one side of the connecting ring 504 far away from the rotating blade 503. Once the fan motor 501 rotates, the rotary column 502, the rotary blade 503, the connection ring 504 and the fan blade 505 are driven to rotate synchronously.

Referring to fig. 5 and 6, the pushing assembly 8 includes a pushing frame 800, a pushing motor 801, a rotating disc 802, a rotating shaft 803, a rotating rod 804, a pushing block 805, a pushing rod 806 and a pushing plate 807.

The material pushing frame 800 is mounted on the work cover 4 in fig. 1 through a bolt, a material pushing motor 801 is mounted on the material pushing frame 800 through a bolt, and the material pushing motor 801 is arranged on one side of the material pushing frame 800 far away from the ground. A rotating disc 802 is arranged on one side of the material pushing frame 800 close to the ground, and the rotating disc 802 is fixedly connected with a rotating shaft 740 of the material pushing motor 801 and is coaxially arranged.

A rotating shaft 803 is further integrally arranged on one side, close to the ground, of the rotating disc 802, a rotating rod 804 is rotatably connected to the rotating shaft 803, and the rotating rod 804 and the rotating shaft 803 can be transited through bolts. And the rotating rod 804 is pivoted with the material pushing rod 806 away from the side rotatably connected with the rotating shaft 803, so as to control the material pushing rod 806 to swing left and right.

In order to improve the stability of the material pushing rod 806, a pushing block 805 is fixed on one side of the material pushing frame 800 close to the ground through a bolt, the pushing block 805 is used for the rotating rod 804 and the material pushing rod 806 to insert, and a chamfer is further formed in the direction in which the pushing block 805 is used for inserting, and the chamfer guides the rotating rod 804 and drives the rotating shaft 803 on the rotating disc 802 to yield, so that the material pushing frame is prevented from being stuck.

A pusher plate 807 is bolted to the side of the pusher rod 806 remote from the rotating rod 804 and is used to push down the accumulated beans.

When the pushing motor 801 rotates, the rotating disc 802 is driven to rotate, so that the rotating shaft 803 on the rotating disc 802 is driven to do circular motion, and the rotating rod 804 is controlled to do reciprocating motion in the pushing block 805, so that the pushing rod 806 and the pushing plate 807 are driven to do forward and backward motion, so as to push the stacked lotus seed beans to be flat.

Referring to fig. 7 and 8, collecting assembly 6 comprises a clamping frame 600, a clamping tab 601, a cloth pipe 602, and a collecting cart 603.

Keep away from the one side of patchhole 510 on the work cover 4, be provided with joint frame 600, and still be fixed with joint piece 601 through glue on the stringing 602, joint piece 601 is arranged in inserting joint frame 600 from last to down to carry out fixed connection with stringing 602 and work cover 4.

Still install rubber sleeve 616 on the collection car 603, and set up the standing groove 617 that supplies rubber sleeve 616 to install on the collection car 603, collecting car 603 is located to the stringing 602 cover on to bind through binding rope 619 and twine to the sack, and the winding position is the position that rubber sleeve 616 is located.

Referring to fig. 8 and 9, a fixing block 618 is fixed on the collecting cart 603 through a bolt, a fixing ball 622 is disposed at one end of the binding rope 619, the other end of the binding rope 619 is fixed on the fixing block 618, and the binding rope 619 is an elastic rubber elastic rope.

The fixing block 618 is provided with a fixing column 620, the fixing column 620 is inserted into the fixing block 618, the fixing block 618 is provided with a movable groove 623 for the fixing ball 622 to move up and down, and the fixing column 620 is further integrally provided with a limiting disc 624. The post is further screwed with a fixing cover 621, and the fixing block 618, the fixing cover 621, the fixing post 620 and the limiting plate 624 are all provided with a rope groove 626 for the binding rope 619 to movably slide, and the rope groove 626 is communicated with the movable groove 623.

The fixing block 618 is provided with a locking groove 625 for inserting and fixing the limiting disc 624 and the fixing post 620. The binding rope 619 is wound in the opposite direction to the insertion direction of the locking groove 625, thereby performing the limit fixing.

Referring to fig. 8 and 10, an elastic rope 627 for reducing and fixing the cloth pipe 602 is further disposed at the inlet of the collecting cart 603 on the cloth pipe 602, the elastic rope 627 is made of elastic rubber, and a connector 628 is fixed at one end of the elastic rope 627 and may be reinforced by glue.

The other end of the elastic rope 627 is fixed with a connecting block 629 which can be reinforced by glue. The connecting block 629 is provided with a connecting groove 630 for slidably matching the connecting head 628. The connecting block 629 is integrally provided with a fixing ring 631, and the fixing ring 631 and the thread cylinder 632 are mutually limited. The connecting block 629 is screwed with a screw cylinder 632, the screw cylinder 632 is screwed with the connecting head 628 and the connecting block 629 to cover the connecting groove 630, and is used for fixing the connecting head 628 and the connecting block 629,

referring to fig. 11 and 12, a moving plate 604 is further disposed on one side of the collection cart 603 close to the ground, an insertion piece 606 is integrally disposed on one side of the moving plate 604, and an insertion groove 607 into which the insertion piece 606 is inserted is formed in the collection cart 603. A buckle 608 is integrally arranged on one side of the moving plate 604 close to the collection cart 603, and a clamping groove 609 for clamping and fixing the buckle 608 is formed in the collection cart 603.

The moving plate 604 is rotatably connected to a wheel 605. The collection vehicle 603 is further integrally provided with an air outlet cylinder 610 communicated with the inside, and the air outlet cylinder 610 is used for discharging impurities and waste materials in the inside. The air outlet cylinder 610 is also provided with an air outlet net 611 for discharging air.

The air outlet cylinder 610 is in threaded fit with a screw cap 613, a pressure spring 612 is further installed between the screw cap 613 and the air outlet net 611, and the pressure spring 612 is used for fixing the air outlet net 611. A first assembly hole 614 for mounting one end of the compression spring 612 is formed on the air outlet network 611, and a second assembly hole 615 for mounting the other end of the compression spring 612 is formed on the screw cover 613.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. A processing technology of lotus seed beans is characterized in that: the method comprises the following steps:

s1, base sampling: controlling the base raw materials 5 days before harvesting, sampling by a basic value maintainer, submitting for inspection, and performing pesticide residue inspection;

s2, raw material purchase: the raw materials are fresh, the tissues are tender, no insects are generated, pesticide residues cannot be detected, and the maturity is 75-85%;

s3, removing filaments: removing shreds from the single side of the lotus seed kernel bean;

s4, entering a constant temperature warehouse: the raw materials are moved into a constant temperature warehouse, marked by a hanging plate and placed in order;

s5, feeding: uniformly feeding the lotus seed beans;

s6, air separation: the lotus seed beans are taken out of the bag and sent to a winnowing machine (1) through a conveying belt to remove impurities;

s7, cleaning: feeding materials automatically into a bubble cleaning machine through a conveyor for cleaning, and removing floating impurities;

s8, foreign matter removal: removing foreign matters by using a magic tape in an automatic roller type manner;

s9, cooking: after cleaning, automatically putting the mixture into a cooking pot for cooking, wherein the temperature is 98-100 ℃, the water depth is 4-7.5cm, and the time is 60 seconds;

s10, primary cooling: after cooking, the mixture enters a cooler for normal-temperature water flow cooling, the water temperature is below 25 ℃, and the product temperature is below 30 ℃;

s11, secondary cooling: after the first cooling, automatically flowing cold water for cooling again, wherein the water temperature is below 10 ℃, and the product temperature is below 15 ℃;

s12, vibration draining: cooling and then entering a vibration tank to remove surface moisture;

s13, quick freezing by IQF: feeding the materials into an IQF quick-freezing machine through a conveyor, a material distribution sieve and uniform material distribution;

s14, packaging the semi-finished product: weighing the quick-frozen semi-finished product, and packaging the quick-frozen semi-finished product inside and outside;

s15, storing in a low-temperature warehouse: and placing the packaged product on a backing plate, and storing the product in a warehouse.

2. The process of claim 1, wherein the method further comprises the steps of: the winnowing machine (1) comprises:

the workbench (2) is arranged on the ground and is used for installing the transmission assembly (3);

a transport assembly (3) for transporting the beans;

the working cover (4) is arranged on the working table (2), covers the transmission component (3) and is used for transmitting the lotus seed beans, and is used for installing the blowing component (5), the collecting component (6) and the pushing component (8);

the blowing assembly (5) is arranged on the working cover (4) and is used for blowing impurities in the lotus seed beans on the transmission assembly (3) into the collection assembly (6);

the collecting assembly (6) is arranged on the working cover (4) and is matched with the blowing assembly (5) to collect the blown impurities;

the vibration component (7) is arranged on the transmission component (3) and is used for vibrating the lotus seed beans on the transmission component (3) to dispersedly adjust the lotus seed beans;

the material pushing assembly (8) is arranged on the working cover (4) and used for pushing the stacked lotus seed beans to be flat.

3. The process of claim 2, wherein the method further comprises the steps of: the transmission assembly (3) comprises:

the transmission motor (300) is arranged on the workbench (2) and is used for driving the transmission roller (301) to rotate;

a conveying roller (301) rotatably connected to the table (2);

the conveying belt (302) is arranged on the conveying roller (301), is used for driving the conveying roller (301) to synchronously convey and is used for conveying the lotus seed beans;

the transmission plates (303) are pivoted on two sides of the workbench (2) and are used for transmitting the lotus seed beans;

and the torsion spring (304) is arranged on the transmission plate (303) and is used for driving the transmission plate (303) to turn over and move downwards.

4. The process of claim 2, wherein the method further comprises the steps of: the vibration assembly (7) comprises a vibration plate (70) arranged on the workbench (2), a first vibration piece (71) arranged on the vibration plate (70), a second vibration piece (72) arranged on the vibration plate (70) and a third vibration piece (73) arranged on the vibration plate (70), wherein the first vibration piece (71), the second vibration piece (72) and the third vibration piece (73) vibrate the conveying belt (302) on the transmission assembly (3);

the first vibrating member (71) includes:

a vibration frame (710) which is arranged on the vibration plate (70) and is used for installing a vibration motor (711);

the vibration motor (711) is arranged on the vibration rack (710) and is used for driving the first main shaft (712) to rotate;

the first main shaft (712) is connected with an output shaft of the vibration motor (711) and synchronously drives the first vibrating rod (713) to rotate;

a first vibrating bar (713) disposed on the first main shaft (712) and configured to vibrate the conveyor belt (302) on the conveying assembly (3) to vibrate the lotus seed beans;

the first bearing seats (714) are symmetrically arranged at two sides of the first main shaft (712), arranged on the vibration plate (70) and used for installing the first bearings (715);

the first bearing (715) is arranged on the first bearing seat (714) and is used for the first main shaft (712) to penetrate and fix;

and the first bearing cover (716) is arranged on the first bearing seat (714) and is used for pressing and fixing the first bearing (715).

5. The process of claim 4, wherein the method further comprises the steps of: the second vibrating member (72) includes:

the second main shaft (720) is arranged on one side of the first main shaft (712) and synchronously drives the second vibrating rod (721) to rotate;

a second vibratory rod (721) disposed on the second main shaft (720) and configured to vibrate the conveyor belt (302) on the conveying assembly (3) to vibrate the lotus seed beans;

the second bearing seats (722) are symmetrically arranged on one side of the second main shaft (720), arranged on the vibration plate (70) and used for installing a second bearing (723);

the second bearing (723) is arranged on the second bearing seat (722) and is used for the second main shaft (720) to penetrate and fix;

a second bearing cover (724) arranged on the second bearing seat (722) and used for pressing and fixing the second bearing (723)

A driving gear (725) disposed on the first main shaft (712) and engaged with the intermediate gear (727);

a gear carrier (726) which is provided on the vibration plate (70) and to which the intermediate gear (727) is connected in a rolling manner;

an intermediate gear (727) which is connected to the carrier (726) in a rolling manner and is meshed with the driving gear (725) and the driven gear;

and a first driven gear (728) which is provided coaxially with the second main shaft (720).

6. The process of claim 5, wherein the method further comprises the steps of: the third vibrating member (73) includes:

the third main shaft (730) is arranged on the other side of the first main shaft (712) and synchronously drives the third vibrating bar (731) to rotate;

a third vibrating bar (731) which is arranged on the third main shaft (730) and is used for vibrating the conveying belt (302) on the conveying assembly (3) so as to vibrate the lotus seed beans;

a third bearing seat (732) symmetrically arranged on the other side of the third main shaft (730), arranged on the vibration plate (70) and used for installing a third bearing (733);

the third bearing (733) is arranged on the third bearing seat (732) and is used for the third main shaft (730) to penetrate and fix;

a third bearing cover (734) arranged on the third bearing seat (732) and used for pressing and fixing the third bearing (733);

a second driven gear (735) provided coaxially with the third main shaft (730);

a shaft bracket (736) which is arranged on the vibrating plate (70) and is used for installing a rotary bearing seat (737);

the rotating bearing block (737) is arranged on the shaft bracket (736) and is used for installing the rotating bearing (738);

a rotating bearing (738) which is arranged on the rotating bearing seat (737) and is used for installing a rotating shaft (740);

the rotating bearing (738) cover is arranged on the rotating bearing seat (737) and used for pressing and fixing the rotating bearing (738);

and a rotating shaft (740) that is provided on the rotating bearing (738) and that meshes with the drive gear (725) and the second driven gear (735).

7. The process of claim 2, wherein the method further comprises the steps of: the blowing assembly (5) comprises:

the bracket (500) is arranged on the workbench (2) and is used for installing a fan motor (501);

the fan motor (501) is arranged on the bracket (500) and is used for driving the rotating column (502) to rotate;

a rotary column (502) mounted on the output shaft of the fan motor (501);

a rotating blade (503) that is provided on the rotating blade (503) and rotates to blow out impurities;

a connecting ring (504) arranged on the rotating blade (503) and fixedly connected with the fan blade (505);

a fan blade (505) provided on the connection ring (504) for rotating to blow out impurities;

the fan cover (506) is inserted into the insertion hole (510) and is used for installing and placing the rotating column (502), the rotating blade (503), the connecting ring (504) and the fan blade (505);

the limiting ring (507) is arranged on the fan cover (506) and mutually limits the position of the limiting ring and the working cover (4) so as to control the inserting distance of the fan cover (506);

a locking ring (508) which is screw-fitted to the fan cover (506) and is used for fixing the fan cover (506);

an air screw (509) which is arranged on the inner side wall of the fan cover (506) and is opposite to the rotating direction of the rotating column (502);

the working cover (4) is provided with an insertion hole (510) for inserting the fan cover (506).

8. The process of claim 2, wherein the method further comprises the steps of: the collection assembly (6) comprises:

the clamping frame (600) is arranged on the working cover (4) and used for clamping and fixing the clamping sheet (601);

the clamping sheet (601) is connected with one end of the cloth pipe (602) and is clamped and fixed with the clamping frame (600);

the pipe distribution (602) is respectively connected with the clamping sheet (601) and the collecting vehicle (603) for waste material transmission;

a collection vehicle (603) placed on the ground for waste collection;

the moving plate (604) is arranged at the bottom of the collecting vehicle (603) and is used for mounting wheels (605) in a rolling manner;

wheels (605) arranged on the moving plate (604) and connected with the ground in a rolling way;

the insertion piece (606) is arranged on one side, close to the collection vehicle (603), of the moving plate (604);

an insertion groove (607) which is provided on the collection vehicle (603) and into which the insertion piece (606) is inserted and fixed;

the buckle (608) is arranged on one side, close to the collecting vehicle (603), of the moving plate (604);

the clamping groove (609) is arranged on the collecting vehicle (603) and is used for clamping and fixing the buckle (608);

the air outlet cylinder (610) is arranged on the collecting vehicle (603) and is used for discharging waste materials;

the air outlet net (611) is arranged on the air outlet cylinder (610) and is used for discharging air;

a pressure spring (612) which is arranged between the air outlet net (611) and the rotary cover (613) and is used for fixing the air outlet net (611);

the screw cap (613) is in threaded fit with the air outlet cylinder (610) and is used for compressing the pressure spring (612);

the first assembling hole (614) is arranged on the air outlet net (611) and is used for installing the pressure spring (612);

and the second assembling hole (615) is arranged on the screw cap (613) and is used for installing the pressure spring (612).

9. The process of claim 8, wherein the method further comprises the steps of: the collection assembly (6) further comprises:

the rubber sleeve (616) is arranged on the collecting vehicle (603) and is matched and fixed with the cloth pipe (602);

a placement groove (617) which is arranged on the collecting vehicle (603) and used for installing and fixing the rubber sleeve (616);

the fixing block (618) is arranged on the collecting vehicle (603) and is used for inserting and matching the fixing column (620);

a binding rope (619), one end of which is connected with the fixed block (618), and the other end of which is connected with the fixed ball (622) and is wound on the cloth cylinder;

a fixing column (620) inserted into the fixing block (618);

a fixing cover (621) which is screwed on the fixing column (620) and is used for fixing the fixing ball (622);

the fixing ball (622) is connected to the fixing column (620) in a sliding manner and is fixedly connected with the binding rope (619);

the movable groove (623) is arranged on the fixed column (620) and is used for the sliding connection of the fixed ball (622);

the limiting disc (624) is integrally arranged on the fixing column (620);

the locking groove (625) is arranged on the fixing block (618) and is used for inserting and fixing the limiting disc (624) and the fixing column (620);

the rope groove (626) is arranged on the fixing block (618), the fixing column (620) and the limiting disc (624), is used for the binding rope (619) to movably slide and is communicated with the movable groove (623);

the elastic rope (627) is arranged on one side of the cloth cylinder close to the collecting vehicle (603) and is used for gathering the cloth cylinder;

a connector (628) arranged at one end of the elastic rope (627);

the connecting block (629) is arranged at the other end of the elastic rope (627) and is matched and fixed with the connecting head (628);

the connecting groove (630) is arranged on the connecting block (629) and is used for the sliding fit of the connecting head (628);

the fixing ring (631) is integrally arranged on the connecting block (629) and is mutually limited with the threaded cylinder (632);

and a screw cylinder (632) which is screwed on the connecting head (628) and the connecting block (629) to cover the connecting groove (630) and is used for fixing the connecting head (628) and the connecting block (629).

10. The process of claim 2, wherein the method further comprises the steps of: the pusher assembly (8) comprises:

the material pushing frame (800) is arranged on the working cover (4) and is used for installing a material pushing motor (801) and a pushing block (805);

the material pushing motor (801) is arranged on one side, away from the ground, of the material pushing frame (800) and used for driving the rotating disc (802);

the rotating disc (802) is arranged on one side, close to the ground, of the material pushing frame (800) and is fixedly connected with a rotating shaft (740) of the material pushing motor (801);

the rotating shaft (803) is arranged on one side, away from the material pushing frame (800), of the rotating disc (802);

a rotating rod (804) which is rotatably connected to the rotating shaft (803);

the pushing block (805) is arranged on one side, close to the ground, of the pushing frame (800) and is used for the rotating rod (804) to movably slide;

the material pushing rod (806) is connected to the pushing block (805) in a sliding manner and is longitudinally pivoted and fixed with the rotating rod (804);

the material pushing plate (807) is arranged on one side of the material pushing rod (806) far away from the rotating rod (804) and is used for pushing down the stacked lotus seed beans.

Images