CN115318357A - Stepless regulation intelligent control rice huller and operation method - Google Patents

Abstract

The invention discloses a stepless-adjustment intelligent-control rice huller and an operation method thereof, and relates to the technical field of rice hullers, in particular to a protective frame and a hydraulic cylinder, wherein a support frame is arranged inside the protective frame, a stepless adjusting motor is arranged at the left end outside the support frame, the output end of the stepless adjusting motor is connected with a connecting disc through a driving shaft, a belt is arranged on the outer surface of the connecting disc, and the other end of the belt is provided with a rice huller main body. This stepless regulation intelligent control rice huller and operation method, design through electrodeless accommodate motor, connection pad and belt makes rice hulling machine main part work realize the unhulled processing of corn, the discharge gate is provided with two sets ofly, thereby the corn after the processing is ended is followed one of them group of corn unloading, the shell that the corn was taken off is followed another a set of discharge gate unloading, corn or corn husk can at first transmit to inside the cushion chamber during the unloading, speed is too fast user's inconvenience is collected when avoiding corn or corn husk unloading.

Description

Stepless regulation intelligent control rice huller and operation method

Technical Field

The invention relates to the technical field of rice hullers, in particular to a stepless regulation intelligent control rice huller and an operation method.

Background

The rice huller is a grain processing machine for hulling rice to obtain brown rice. The rice huller can be used for hulling rice hulls, reducing the phenomena that rice grains explode and the surface is damaged, keeping the integrity of brown rice as far as possible, adjusting the working efficiency of the rice huller through the design of adjustment of the electrodeless adjusting motor, and facilitating the use of the rice huller.

The utility model belongs to the technical field of the rice huller, especially for a rice hull gets rid of thorough rice huller for rice hull, comprising a base plate, the top fixedly connected with support column of bottom plate, the top fixedly connected with rice huller box of support column, the equal first swash plate of fixedly connected with of both sides inner wall of rice huller box, second swash plate and third swash plate, it is connected with first rubber roller and second rubber roller to rotate between the inner wall of rice huller box, the back fixedly connected with square plate of rice huller box, the first motor of top fixedly connected with of square plate, the output of first motor extend to in the rice huller box and with second rubber roller fixed connection, the output fixed surface of first motor is connected with the driving gear. The utility model discloses a can feed the pay-off mouth with corn through feed inlet, third motor, second axis of rotation, inlet pipe and propeller blade, reach laborsaving effect promptly, solution that again can be fine is too high because of the feed inlet, influences the problem that the pay-off reduces work efficiency.

Similar to the above applications, there are currently deficiencies:

inconvenient when rice huller uses the squelch processing of carrying on, the corn exposes the outside and need carry out the material loading processing many times during the material loading simultaneously, and the inconvenient material loading that seals, and inconvenient collects the rice husk and forwards.

In view of the above, research and improvement are made on the existing structure and defects, and a stepless-adjustment intelligent-control rice huller and an operation method are provided, so as to achieve the purpose of higher practical value.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a stepless regulation intelligent control rice huller and an operation method thereof, and solves the problems in the background technology.

In order to achieve the purpose, the invention is realized by the following technical scheme: a stepless regulation intelligent control rice huller and an operation method thereof comprise a protective frame and a hydraulic cylinder, wherein a support frame is arranged in the protective frame, a stepless regulation motor is arranged at the left end of the outer side of the support frame, the output end of the stepless regulation motor is connected with a connecting disc through a driving shaft, a belt is arranged on the outer surface of the connecting disc, a rice huller body is installed at the other end of the belt, buffer cavities are respectively arranged at the front end and the rear end of the rice huller body, a placing frame is installed at one end in the buffer cavities, a servo motor is arranged in the placing frame, a second hydraulic air rod is installed at one end of the outer surface of the placing frame, the output end of the servo motor is connected with a connecting shaft, an engaging rod is arranged outside the connecting shaft, a bottom plate is installed at the end part of the engaging rod, and a built-in auxiliary cavity is arranged on the outer surface of the bottom plate, and the interior of the built-in auxiliary cavity is provided with an extrusion component for collecting shells generated during the working of the rice huller, the extrusion component comprises a first hydraulic air rod, a fixed plate and a push plate, the push plate is installed at the output end of the first hydraulic air rod, the fixed plate is arranged on the outer surface of the top of the built-in auxiliary cavity, the hydraulic air cylinders are arranged on two sides of the bottom of the support frame, the bottom of the hydraulic air cylinders is provided with a bottom plate, the interior of the bottom plate is provided with an electric slide rail, the electric slide rail is connected with a collection disc through a slide block in a sliding manner, the top of the protection frame is provided with a placing cavity, the top of the placing cavity is provided with a closing plate in a sliding manner, the right side of the protection frame is clamped with a first side plate, the interior of the rice huller main body is provided with a central feed port, the lower end of the central feed port is fixedly provided with an upper diamond disc, and the lower end of the upper diamond disc is provided with a lower diamond disc, and the lower extreme mid-mounting of lower diamond sand dish has the conveying axle, the outside of conveying axle is provided with connects the concentrated groove of material, the outside screw thread of rice huller main part is provided with the screw lead screw, and the one end of screw lead screw rotates and installs the adjusting plate, the one side of connecing the concentrated groove of material is provided with the fan.

Furthermore, the interior of the built-in auxiliary cavity is of a hollow structure, and the built-in auxiliary cavity and the fixing plate are of an integrated structure.

Furthermore, the top of rice huller main part is provided with the unloading frame, and the inside of unloading frame is provided with the adjustment subassembly that is used for carrying out control to the unloading range.

Furthermore, the adjusting component comprises a top block, an adjusting plate, a hinged block, a second electric push rod and a movable plate, the adjusting plate is installed on the top block in a rotating mode, the movable plate is arranged inside the adjusting plate in a sliding mode, and the second electric push rod is installed on one end of the outer surface of the adjusting plate through the hinged block.

Further, the protection frame outside is provided with links up the frame, and links up the inside of frame and be provided with the discharge gate, the apron is installed to the inside block of discharge gate.

Furthermore, the outside of discharge gate is provided with and is used for carrying out spacing subassembly to the bag, and spacing subassembly includes connection frame, electric putter, set board and locating plate, the inside of connection frame is provided with electric putter, and just set board is installed to electric putter's output, set board surface is provided with the locating plate.

Furthermore, the locating plate is "L" type structure, and locating plate and set board be integrated structure.

Further, the surface of discharge gate is provided with the adjusting part of supplementary height adjustment, and adjusting part includes first baffle, second baffle and third baffle, the inside slidable mounting of first baffle has the second baffle, and the inside slidable mounting of second baffle has the third baffle, the left side block of protective frame is provided with the second curb plate, and the surface mounting of second curb plate has the switching piece, the inside rotation of switching piece is provided with the door plant.

Further, the inside of placing the chamber is hollow column structure, and place the chamber bottom and be connected with the protection frame block.

Further, the operating method of the stepless regulation intelligent control rice huller comprises the following steps,

firstly, a placing cavity can be selectively clamped and limited at the upper end of a protective frame according to use requirements, a user places rice in the placing cavity in advance after clamping and limiting, and after placing is finished, a sealing plate manually slides along the horizontal direction of the top of the placing cavity until the sealing plate is completely overlapped with the placing cavity;

step two, the placed rice is transferred to a discharging frame at the top of the main body of the rice huller through the action of gravity, the angle of the adjusting plate can be adjusted by the design of a second electric push rod and a hinge block and the rotation of the top block and the adjusting plate simultaneously according to the processing requirement of the main body of the rice huller, and the two groups of adjusting plates are arranged, so that the discharging condition can be controlled conveniently by adjusting the angles of the two adjusting plates, and the phenomenon that the main body of the rice huller is blocked due to excessive discharging is avoided;

step three, the rice after the feeding adjustment enters between an upper diamond sand table and a lower diamond sand table through a central feeding hole, then a transmission shaft is driven to rotate through the design of a stepless adjusting motor, a connecting disc and a belt, the lower diamond sand table is synchronously driven to rotate through the rotation of the transmission shaft, the rice is forced to enter an annular shelling area between the two tables by centrifugal force generated by the rotation of the lower diamond sand table, shelling treatment is realized under the action of end pressure and friction, the shelled rice enters a material receiving centralized groove, the rice in the material receiving centralized groove is separated from the shell by the design of a fan, in addition, a user can disassemble between the stepless adjusting motor and a supporting frame through manually rotating a bolt, the height of the stepless adjusting motor is fixed again through selecting the supporting frame, and the stepless adjusting motor and the supporting frame are fixed by the design of the bolt, simultaneously, the limiting shaft sleeves which are movably connected with the conveying shaft are synchronously adjusted, so that the conveying shaft is adjusted to move upwards or downwards relative to the rice huller main body, the position is fixed by using bolts after adjustment, the hulling treatment is convenient to be carried out according to the granularity of rice by adjusting the distance between an upper diamond sand disc and a lower diamond sand disc, a user rotates a threaded lead screw clockwise or anticlockwise, the threaded lead screw is in threaded connection with the rice huller main body, the threaded lead screw is in elastic rubber connection with a material receiving centralized groove, a movable plate is driven to move in position by the rotation of the threaded lead screw, the distance is conveniently adjusted according to centrifugal end pressure generated during hulling and the movable plate, two groups of discharge ports are arranged, so that the rice after treatment is discharged from one group of rice, the husks removed from the other group of discharge ports are discharged, and the rice or rice husks are firstly transferred to the inside a buffer cavity during discharging, the problem that a user is inconvenient to collect rice or rice husks at too high speed during blanking is avoided, meanwhile, the second hydraulic air rod can be used for driving the built-in auxiliary cavity to move, the rice or rice husks in the buffer cavity can be pushed to the discharge port to be blanked through the position movement of the built-in auxiliary cavity, in addition, the user can place the conveying pipe or the bag for packaging the rice or the rice husks between the positioning plate and the discharge port during blanking, and then the position of the collecting plate is driven to move through the design of the first electric push rod in the connecting frame, so that the end part of the positioning plate can be tightly attached to the outer part of the connecting frame, the limiting on the conveying pipe or the bag for packaging the rice or the rice husks is realized, and the rice or the rice husks are convenient to collect;

and fourthly, for wet rice husks or rice husks pre-stored in the built-in auxiliary cavity, the built-in auxiliary cavity can be driven to move by the second hydraulic air rod to enable the built-in auxiliary cavity to be located in the material receiving area of the buffer cavity, the rice husks can fall into the built-in auxiliary cavity, then the rice husks falling into the built-in auxiliary cavity can be extruded and molded by driving the position of the push plate to move by the design of the first hydraulic air rod, after the extrusion molding is finished, the connecting rod is driven to rotate by the design of the servo motor and the connecting shaft, and the connecting rod is connected with the bottom plate, so that the bottom plate can rotate to one side relative to the built-in auxiliary cavity, the extruded rice husks can be transferred to the collecting plate, the rice husks are conveyed again by the action of the electric sliding rails and the sliding blocks, when the rice husks are conveyed to be close to the protective frame, a user manually pulls the door plate which is connected with the rotating of the connecting block, and the rice husks in the collecting plate can be taken out conveniently.

The invention provides a stepless-regulation intelligent-control rice huller and an operation method thereof, and the stepless-regulation intelligent-control rice huller has the following beneficial effects:

this rice huller enclosed construction thereby can effectively fall the noise when the rice huller uses, and can utilize the design of placing chamber and shrouding to seal the unloading during the unloading, avoid the manual unloading many times of user, also avoid simultaneously the corn to expose the outside great problem of noise when adding man-hour, the design of adjustment subassembly can be adjusted the range of unloading automatically in the cooperation unloading frame, avoid the too much problem that leads to rice huller work to be obstructed of unloading, and be convenient for carry out classified collection to the corn after processing and then the rice husk, can also carry out the extrusion formula to the rice husk simultaneously and collect, avoid the problem that the rice husk is scattered and occupation space is inconvenient to be transported of collection formula more, in addition can utilize the design of spacing subassembly to carry on spacingly to bag and conveying pipe when can collecting rice or corn, be convenient for collect rice and rice husk after finishing processing.

1. According to the stepless-regulation intelligent-control rice huller and the operation method, the placing cavity can be clamped and limited at the upper end of the protective frame according to the selectivity required by use, a user places rice in the placing cavity in advance after the clamping is limited, after the placing is finished, the sealing plate is manually slid along the horizontal direction of the top of the placing cavity until the sealing plate is completely overlapped with the placing cavity, the sealing treatment of the placing cavity is realized, the inner part of the placing cavity is inclined, the automatic discharging of articles is facilitated, the repeated manual discharging of the user is not required, meanwhile, the structure is simple, more space is not required to be occupied, the disassembly, assembly and use are facilitated, and the noise can be effectively reduced due to the design of the sealing discharging;

2. according to the stepless regulation intelligent control rice huller and the operation method, rice can be transferred to the discharging frame at the top of the rice huller main body through the action of gravity, the angle of the adjusting plate can be adjusted by matching the rotation of the jacking block and the adjusting plate through the design of the second electric push rod and the hinge block according to the processing requirement of the rice huller main body, two groups of adjusting plates are arranged, the discharging condition can be conveniently controlled by adjusting the angles of the two adjusting plates, and the phenomenon that the processing of the rice huller main body is blocked due to excessive discharging is avoided;

3. according to the stepless regulation intelligent control rice huller and the operation method, the rice hulling treatment is realized by the rice huller main body through the design of the stepless regulation motor, the connecting disc and the belt, two groups of discharge ports are arranged, so that rice after treatment is discharged from one group of rice, rice hulled shells are discharged from the other group of discharge ports, the rice or rice hulls are firstly transferred to the inside of the buffer cavity during discharging, and the inconvenience of a user caused by too high speed during discharging of the rice or rice hulls is avoided;

4. according to the stepless-regulation intelligent-control rice huller and the operation method, the second hydraulic air rod can be used for driving the position of the built-in auxiliary cavity to move, the rice or rice husks in the buffer cavity can be pushed to the discharge port to be discharged through the position movement of the built-in auxiliary cavity, in addition, a user can place a conveying pipe or a bag for packaging the rice or the rice husks between the positioning plate and the discharge port during discharging, and then the position of the collecting plate is driven to move through the design of the first electric push rod in the connecting frame, so that the end part of the positioning plate can be tightly attached to the outer part of the connecting frame, the limiting of the conveying pipe or the bag for packaging the rice or the rice husks is realized, and the rice or the rice husks can be conveniently collected;

5. the stepless regulation intelligent control rice huller and the operation method have the advantages that water is stored in a wet rice hull or an internal auxiliary cavity in advance, the internal auxiliary cavity can be driven to move by the aid of the second hydraulic air rod to be located in a material receiving area in the buffer cavity, the rice hull can fall into the internal auxiliary cavity, then the design of the first hydraulic air rod can be used for driving the position of the push plate to move so as to realize extrusion forming of the rice hull falling into the internal auxiliary cavity, the connecting rod is driven to rotate by the design of the servo motor and the connecting shaft after the extrusion forming is finished, the connecting rod is connected with the bottom plate, the bottom plate can rotate to one side relative to the internal auxiliary cavity, the extruded rice hull can be transferred to the collection disc, the rice hull is conveyed again by the aid of the action of the electric sliding rails and the sliding blocks, a door plate connected with the rotation of the switching block is manually pulled by a user when the rice hull is conveyed to be close to the protection frame, and the rice hull in the collection disc can be taken out conveniently by the user.

Drawings

Fig. 1 is a schematic view of the main external structure of a stepless-regulation intelligent-control rice huller according to the present invention;

fig. 2 is a schematic view of the internal structure of a stepless-regulation intelligent-control rice huller protection frame according to the present invention;

fig. 3 is an enlarged schematic view of a part a of fig. 2 of the intelligent control rice huller with stepless adjustment according to the present invention;

fig. 4 is a schematic view of a top-down connection structure of an auxiliary cavity built in the stepless-regulation intelligent-control rice huller of the present invention;

fig. 5 is a schematic view of a connection structure of a stepless-regulation intelligent-control rice huller servo motor in a bottom view;

fig. 6 is a schematic side view of a discharge port of the stepless-adjustment intelligent-control rice huller according to the present invention;

fig. 7 is a schematic view of the internal structure of a stepless-regulation intelligent-control rice huller blanking frame of the present invention;

fig. 8 is a schematic top view of a stepless-adjusting intelligent-control rice huller bottom plate according to the present invention;

fig. 9 is a schematic view of the internal structure of a main body of the intelligent control stepless adjusting rice huller of the present invention.

In the figure: 1. a protective frame; 2. a first side plate; 3. a linking frame; 4. an adjustment assembly; 401. a first baffle plate; 402. a second baffle; 403. a third baffle plate; 5. a discharge port; 6. a cover plate; 7. a second side plate; 8. a transfer block; 9. a door panel; 10. a placement chamber; 11. closing the plate; 12. a stepless adjusting motor; 13. a connecting disc; 14. a belt; 15. a rice huller body; 16. a blanking frame; 17. a buffer chamber; 18. a hydraulic cylinder; 19. a base plate; 20. a slider; 21. placing a frame; 22. an auxiliary cavity is arranged inside; 23. a servo motor; 24. an extrusion assembly; 2401. a first hydraulic gas lever; 2402. a fixing plate; 2403. pushing the plate; 25. a connecting shaft; 26. a connecting rod; 27. a bottom plate; 28. a limiting component; 2801. a connecting frame; 2802. a first electric push rod; 2803. a collection plate; 2804. positioning a plate; 29. an adjustment assembly; 2901. a top block; 2902. an adjustment plate; 2903. a hinged block; 2904. a second electric push rod; 2905. a movable plate; 30. a collection tray; 31. an electric slide rail; 32. a support frame; 33. a second hydraulic gas lever; 34. a threaded lead screw; 35. moving the plate; 36. a fan; 37. a central feed port; 38. mounting a carborundum disc; 39. a carborundum disc is arranged; 40. a transfer shaft; 41. a material receiving centralized groove; 42. and a limiting shaft sleeve.

Detailed Description

Referring to fig. 1 to 9, the present invention provides a technical solution: a stepless regulation intelligent control rice huller and an operation method, comprises a protective frame 1, a first side plate 2, a connecting frame 3, an adjusting component 4, a first baffle 401, a second baffle 402, a third baffle 403, a discharge port 5, a cover plate 6, a second side plate 7, a switching block 8, a door plate 9, a placing cavity 10, a sealing plate 11, a stepless adjusting motor 12, a connecting disc 13, a belt 14, a rice huller main body 15, a blanking frame 16, a buffer cavity 17, a hydraulic cylinder 18, a bottom plate 19, a slider 20, a placing frame 21, a built-in auxiliary cavity 22, a servo motor 23, an extrusion component 24, a first hydraulic air rod 2401, a fixed plate 2402, a push plate 2403, a connecting shaft 25, a connecting rod 26, a bottom plate 27, a limiting component 28, a connecting frame 2801, a first electric push rod 2802, a collecting plate 2803, a positioning plate 4, an adjusting component 29, a top block 2901, an adjusting plate 2902, a 2903, a second electric push rod 4, a movable plate 2905, a movable plate 30, an electric collecting disc 31, a supporting frame 32, a second hydraulic air rod 33, a threaded moving plate 35, a fan 36, a central diamond wire rod 36, a central sand collecting disc 38, a diamond feed inlet 38, a diamond sand collecting disc 38, a diamond sand collecting groove 40 and a diamond sand collecting groove 41, a supporting frame 32 is arranged in the protective frame 1, a stepless adjusting motor 12 is arranged at the left end of the outer side of the supporting frame 32, the output end of the stepless adjusting motor 12 is connected with a connecting disc 13 through a driving shaft, a belt 14 is arranged on the outer surface of the connecting disc 13, a rice huller main body 15 is arranged at the other end of the belt 14, buffer cavities 17 are arranged at the front end and the rear end of the rice huller main body 15, a placing frame 21 is arranged at one end of the inner part of each buffer cavity 17, a servo motor 23 is arranged in the placing frame 21, a second hydraulic air rod 33 is arranged at one end of the outer surface of the placing frame 21, the output end of the servo motor 23 is connected with a connecting shaft 25, a joint rod 26 is arranged outside the connecting shaft 25, a bottom plate 27 is mounted at the end of the joint rod 26, a built-in auxiliary cavity 22 is arranged on the outer surface of the bottom plate 27, an extrusion assembly 24 for collecting shells generated during the operation of the rice huller is arranged inside the built-in auxiliary cavity 22, the built-in auxiliary cavity 22 is of a hollow structure, the built-in auxiliary cavity 22 and a fixed plate 2402 are of an integrated structure, the extrusion assembly 24 comprises a first hydraulic air rod 2401, a fixed plate 2402 and a push plate 2403, the push plate 2403 is mounted at the output end of the first hydraulic air rod 2401, the fixed plate 2402 is arranged on the outer surface of the top of the built-in auxiliary cavity 22, hydraulic air cylinders 18 are arranged on two sides of the bottom of a supporting frame 32, a bottom plate 19 is arranged at the bottom of the hydraulic air cylinders 18, electric slide rails 31 are mounted inside the bottom plate 19, the electric slide rails 31 are connected with a collection disc 30 in a sliding mode through sliders 20, a top placement cavity 10 is arranged at the top of the protection frame 1, a seal plate 11 is mounted at the top of the placement cavity 10, a first side of the protection frame 1 is clamped with a first side plate 2, a center 37 is arranged inside the rice huller, a lower end of a diamond spindle 35, a lower end of a diamond spindle, a lower end of a lower diamond spindle 35 is mounted on a lower end of a diamond spindle 40, and a lower end of a lower diamond spindle 35, and a lower end of a lower diamond spindle for conveying plate 35, a lower end of a lower diamond spindle for conveying machine is mounted on the diamond spindle, and a lower end of a lower diamond spindle for conveying machine spindle, a diamond spindle 35;

the specific operation is as follows, the rice after the feeding adjustment enters between the upper diamond sand table 38 and the lower diamond sand table 39 through the central feeding hole 37, then the design of the stepless adjusting motor 12, the connecting disc 13 and the belt 14 drives the conveying shaft 40 to rotate, the rotation of the conveying shaft 40 synchronously drives the lower diamond sand table 39 to rotate, the centrifugal force generated by the rotation of the lower diamond sand table 39 forces the rice to enter an annular shelling area between the two tables, the shelling treatment is realized under the action of end pressure and friction, the shelled rice enters the receiving material concentration groove 41, the rice in the receiving material concentration groove 41 is separated from the shell by the design of the fan 36, in addition, a user can disassemble between the stepless adjusting motor 12 and the supporting frame 32 by manually rotating the bolt, meanwhile, the height of the stepless adjusting motor 12 is fixed again by selecting the supporting frame 32, the stepless adjusting motor 12 and the supporting frame 32 are fixed by the design of the bolt, simultaneously, the outside of the transmission shaft 40 is synchronously adjusted, the limiting shaft sleeve 42 is movably connected with the transmission shaft 40, the transmission shaft 40 is adjusted to move upwards or downwards relative to the rice huller main body 15, the position is adjusted and fixed by using bolts, the distance between the upper diamond sand disc 38 and the lower diamond sand disc 39 is adjusted, hulling treatment is convenient to carry out according to the grain size, a user rotates the threaded screw rod 34 clockwise or anticlockwise, the threaded screw rod 34 is elastically connected with the material receiving concentration groove 41 through rubber, the movable plate 35 is driven to move through the rotation of the threaded screw rod 34, adjustment on the distance is convenient to carry out according to centrifugal end pressure generated during hulling and the movable plate 35, water is pre-stored in a wet rice hull or an internal auxiliary cavity 22, and the internal auxiliary cavity 22 is driven to move by using the second hydraulic air rod 33 to be in the position so that the internal auxiliary cavity 22 is in the buffer cavity 17 and connected with the buffer cavity 17 The material is regional, the rice husk can drop to built-in auxiliary chamber 22, then can utilize the design of first hydraulic pressure pneumatic rod 2401 to drive push pedal 2403 position and remove and realize the extrusion of rice husk in built-in auxiliary chamber 22, design through servo motor 23 and connecting axle 25 after the extrusion is finished drives the joint pole 26 and rotates, and the joint pole 26 is connected with the end board 27, thereby end board 27 can rotate to one side about built-in auxiliary chamber 22, the rice husk of extrusion can be transferred to in the collection dish 30, utilize the effect of electronic slide rail 31 and slider 20 to carry once more, carry to the door plant 9 that the user manual pulling rotated with switching piece 8 and is connected when being close to protection frame 1, the user of being convenient for takes out the rice husk in the collection dish 30.

As shown in fig. 2 and 7, a blanking frame 16 is disposed on the top of the rice huller main body 15, an adjusting assembly 29 for controlling blanking amplitude is disposed inside the blanking frame 16, the adjusting assembly 29 includes a top block 2901, an adjusting plate 2902, a hinge block 2903, a second electric push rod 2904 and a movable plate 2905, the adjusting plate 2902 is rotatably mounted inside the top block 2901, the movable plate 2905 is slidably disposed inside the adjusting plate 2902, and the second electric push rod 2904 is mounted at one end of the outer surface of the adjusting plate 2902 through the hinge block 2903;

the paddy can pass through during the action of gravity forwards the unloading frame 16 at rice huller main part 15 top, can be required according to rice huller main part 15 processing, design through second electric putter 2904 and articulated piece 2903 cooperates the rotation realization of top block 2901 and adjusting plate 2902 simultaneously to adjusting plate 2902 angular adjustment, and adjusting plate 2902 is provided with two sets ofly, through to two adjusting plate 2902 angular adjustment, be convenient for control the unloading condition, it is obstructed to avoid the unloading to lead to the processing of rice huller main part 15 too much.

As shown in fig. 1, a connecting frame 3 is arranged outside a protective frame 1, a discharge port 5 is arranged inside the connecting frame 3, and a cover plate 6 is clamped inside the discharge port 5;

when the receiving space of the built-in auxiliary cavity 22 is enough, the cover plate 6 and the discharge port 5 are in a clamping state, the cover plate 6 is pulled outwards after a certain time to separate the cover plate 6 from the discharge port 5, so that rice or rice husks in the built-in auxiliary cavity 22 can be conveniently taken out uniformly, and the design of the collecting disc 30 can be utilized to receive the rice husks to reduce the frequency of opening the cover plate 6.

As shown in fig. 1 and 6, a limiting assembly 28 for limiting the bag is arranged outside the discharge port 5, the limiting assembly 28 includes a connecting frame 2801, a first electric push rod 2802, a collecting plate 2803 and a positioning plate 2804, the first electric push rod 2802 is arranged inside the connecting frame 2801, the collecting plate 2803 is mounted at an output end of the first electric push rod 2802, the positioning plate 2804 is arranged on an outer surface of the collecting plate 2803, the positioning plate 2804 is in an "L" shape, and the positioning plate 2804 and the collecting plate 2803 are in an integrated structure;

can utilize second hydraulic pressure pneumatic rod 33 to drive built-in supplementary chamber 22 position to remove, can push away to discharge gate 5 punishment unloading to the corn or the chaff of cushion chamber 17 inside through the position to built-in supplementary chamber 22, the user can place between locating plate 2804 and discharge gate 5 conveying pipe or the sack that packs to corn or chaff during the unloading in addition, then the design through first electric putter 2802 in the coupling frame 2801 drives the position of set board 2803 and removes, thereby locating plate 2804 tip can be in the same place with the outside close laminating of coupling frame 2801, realize conveying pipe or spacing to the sack of corn or chaff packing with this, be convenient for collect corn or chaff.

As shown in fig. 1, an adjusting assembly 4 for assisting in height adjustment is arranged on the outer surface of the discharge port 5, the adjusting assembly 4 includes a first baffle 401, a second baffle 402 and a third baffle 403, the second baffle 402 is slidably mounted inside the first baffle 401, the third baffle 403 is slidably mounted inside the second baffle 402, a second side plate 7 is provided on the left side of the protective frame 1 in a clamping manner, a transfer block 8 is mounted on the outer surface of the second side plate 7, a door plate 9 is rotatably arranged inside the transfer block 8, the interior of the placing cavity 10 is of a hollow structure, and the bottom of the placing cavity 10 is connected with the protective frame 1 in a clamping manner;

can make according to using required selectivity place the spacing upper end at protective frame 1 of chamber 10 block, the block is spacing after the user places the corn in advance in placing chamber 10, after placing the end, manual along placing chamber 10 top horizontal direction slip shrouding 11, until shrouding 11 is complete with place chamber 10 coincidence, realize the sealing treatment to placing chamber 10, and place the inside slope form that is of chamber 10, be convenient for the automatic unloading of article, need not the manual unloading of user many times, and simple structure, need not to occupy more space, be convenient for dismantle the equipment and use, the design of sealed unloading can also effectively fall the noise, and can be when not needing to use placing chamber 10, can upwards stimulate and dismantle, the design that utilizes hydraulic cylinder 18 simultaneously can drive support frame 32 upper and lower position and remove, with the upper and lower position removal through to support frame 32 can make unloading frame 16 protrusion in protective frame 1 top, the manual unloading of user, also be convenient for the user maintains the inside unloading frame 16, in addition when support frame 32 reciprocates, discharge gate 5 can be with the removal of step-by step position, drive discharge gate 5 outside first baffle 403 and the third baffle 403 and the supplementary baffle 401 that slides and use each other according to the unloading.

The operation method of the stepless regulation intelligent control rice huller comprises the following steps,

firstly, selectively clamping and limiting a placing cavity 10 at the upper end of a protective frame 1 according to use requirements, placing paddy rice in the placing cavity 10 in advance by a user after clamping and limiting, and manually sliding a sealing plate 11 along the horizontal direction of the top of the placing cavity 10 after placing is finished until the sealing plate 11 is completely overlapped with the placing cavity 10;

step two, the placed rice is transferred to a discharging frame 16 at the top of the rice huller main body 15 through the action of gravity, the angle of the adjusting plate 2902 can be adjusted by matching the rotation of the top block 2901 and the rotation of the adjusting plate 2902 through the design of the second electric push rod 2904 and the hinge block 2903 according to the processing requirement of the rice huller main body 15, two groups of adjusting plates 2902 are arranged, the discharging condition is conveniently controlled through the angle adjustment of the two adjusting plates 2902, and the phenomenon that the processing of the rice huller main body 15 is blocked due to excessive discharging is avoided;

step three, the rice after the blanking adjustment enters between an upper diamond-sand table 38 and a lower diamond-sand table 39 through a central feeding hole 37, then a conveying shaft 40 is driven to rotate through the design of the stepless adjusting motor 12, the connecting disc 13 and the belt 14, the lower diamond-sand table 39 is driven to rotate synchronously through the rotation of the conveying shaft 40, the centrifugal force generated by the rotation of the lower diamond-sand table 39 forces the rice to enter an annular shelling area between the two tables, the shelling treatment is realized under the action of end pressure and friction, the shelled rice enters a material receiving and collecting groove 41, the rice in the material collecting and collecting groove 41 is separated from the shells through the design of a fan 36, in addition, a user can adjust the disassembly between the motor 12 and the supporting frame 32 through manually rotating a bolt, meanwhile, the height of the stepless adjusting motor 12 is fixed again through the supporting frame 32, the stepless adjusting motor 12 and the supporting frame 32 are fixed through the design of the bolt, meanwhile, the limiting shaft sleeves 42 movably connected with the adjusting transmission shaft 40 are synchronously adjusted, so that the adjusting transmission shaft 40 moves upwards or downwards relative to the rice huller main body 15, the position is fixed by using bolts after adjustment, hulling treatment is conveniently carried out according to the grain size through adjustment of the distance between the upper diamond sand disc 38 and the lower diamond sand disc 39, a user rotates the threaded lead screw 34 clockwise or anticlockwise, the threaded lead screw 34 is in threaded connection with the rice huller main body 15, the threaded lead screw 34 is in elastic connection with the material receiving centralized groove 41 through rubber, the movable plate 35 is driven to move through rotation of the threaded lead screw 34, adjustment on the distance between the centrifugal end pressure generated during hulling and the movable plate 35 is conveniently carried out, two groups of discharge ports 5 are arranged, and thus rice after treatment is discharged from one group of rice, the husks of the unhulled paddy are discharged from the other group of discharge holes 5, the paddy or the paddy husks are firstly transferred into the buffer cavity 17 during discharging, so that inconvenience of a user caused by too high speed during discharging of the paddy or the paddy husks is avoided, meanwhile, the second hydraulic air rod 33 can be used for driving the position of the built-in auxiliary cavity 22 to move, the paddy or the paddy husks in the buffer cavity 17 can be pushed to the discharge holes 5 to discharge through moving the position of the built-in auxiliary cavity 22, in addition, a user can place a conveying pipe or a bag packaged by the paddy or the paddy husks between the positioning plate 2804 and the discharge holes 5 during discharging, then the position of the assembling plate 2803 is driven to move through the design of the first electric push rod 2802 in the connecting frame 2801, so that the end part of the positioning plate 2804 can be tightly attached to the outside of the connecting frame 2801, the conveying pipe or the bag packaged by the paddy or the paddy husks can be limited, and the paddy or the paddy husks can be conveniently collected, two sets of discharge ports 5 are provided, so that the rice after the treatment is discharged from one set of rice, the husks removed from the rice are discharged from the other set of discharge port 5, the rice or the rice husks are firstly transferred to the inside of the buffer cavity 17 during the discharging, the inconvenience of a user who is too fast in discharging the rice or the rice husks is avoided, meanwhile, the position of the built-in auxiliary cavity 22 can be driven by the second hydraulic air rod 33 to move, the rice or the rice husks in the buffer cavity 17 can be pushed to the discharge port 5 for discharging through the position movement of the built-in auxiliary cavity 22, in addition, the user can place a conveying pipe or a bag for packaging the rice or the rice husks between the positioning plate 2804 and the discharge port 5 during the discharging, then, the position of the assembling plate 2803 is driven to move through the design of the first electric push rod 2802 in the connection frame 2801, so that the end part of the positioning plate 2804 can be tightly attached to the outside of the connection frame 2801, therefore, the limit of the conveying pipe or the bag for packaging the rice or the rice husks is realized, and the rice or the rice husks are convenient to collect;

step four, for wet rice husks or rice husks pre-stored in the built-in auxiliary cavity 22, the built-in auxiliary cavity 22 can be driven to move by the second hydraulic air rod 33 so that the built-in auxiliary cavity 22 is located in the material receiving area of the buffer cavity 17, the rice husks can fall into the built-in auxiliary cavity 22, then the position of the push plate 2403 can be driven to move by the design of the first hydraulic air rod 2401 so as to extrude the rice husks falling into the built-in auxiliary cavity 22, after extrusion forming, the connecting rod 26 is driven to rotate by the design of the servo motor 23 and the connecting shaft 25, the connecting rod 26 is connected with the bottom plate 27, so that the bottom plate 27 can rotate to one side relative to the built-in auxiliary cavity 22, the extruded rice husks can be transferred to the collecting tray 30, re-transferring is carried out by the action of the electric slide rail 31 and the slide block 20, when being transferred to be close to the protecting frame 1, a user manually pulls the door plate 9 connected with the switching block 8, and the rice husks in the collecting tray 30 can be taken out conveniently.

In conclusion, according to the stepless-adjustment intelligent-control rice huller and the operation method thereof, when in use, the placing cavity 10 can be selectively clamped and limited at the upper end of the protection frame 1 according to the use requirement, a user places rice in the placing cavity 10 in advance after the clamping and limiting, and after the placing is finished, the sealing plate 11 is manually slid along the horizontal direction of the top of the placing cavity 10 until the sealing plate 11 is completely overlapped with the placing cavity 10; then, the placed paddy is transferred to a discharging frame 16 at the top of the main body 15 of the rice huller through the action of gravity, the angle of the adjusting plate 2902 can be adjusted by matching the rotation of the top block 2901 and the adjusting plate 2902 through the design of the second electric push rod 2904 and the hinge block 2903 according to the processing requirement of the main body 15 of the rice huller, two groups of adjusting plates 2902 are arranged, the discharging condition is conveniently controlled through the angle adjustment of the two adjusting plates 2902, and the problem that the processing of the main body 15 of the rice huller is blocked due to excessive discharging is avoided; the rice after the feeding adjustment enters between an upper diamond-sand table 38 and a lower diamond-sand table 39 through a central feeding hole 37, then a transmission shaft 40 is driven to rotate through the design of a stepless adjusting motor 12, a connecting disc 13 and a belt 14, the lower diamond-sand table 39 is synchronously driven to rotate through the rotation of the transmission shaft 40, the rice is forced to enter an annular shelling area between the two tables by centrifugal force generated by the rotation of the lower diamond-sand table 39, shelling treatment is realized under the action of end pressure and friction, the shelled rice enters a material receiving concentration groove 41, the rice in the material receiving concentration groove 41 is separated from the shell by the design of a fan 36, in addition, a user can disassemble between the stepless adjusting motor 12 and a supporting frame 32 through manually rotating a bolt, meanwhile, the height of the stepless adjusting motor 12 is fixed again through the supporting frame 32, the stepless adjusting motor 12 and the supporting frame 32 are fixed through the design of the bolt, meanwhile, the limiting shaft sleeves 42 movably connected with the adjusting transmission shaft 40 are synchronously adjusted, so that the adjusting transmission shaft 40 moves upwards or downwards relative to the rice huller main body 15, the position is fixed by using bolts after adjustment, hulling treatment is conveniently carried out according to the grain size through adjustment of the distance between the upper diamond sand disc 38 and the lower diamond sand disc 39, a user rotates the threaded screw rod 34 clockwise or anticlockwise, the threaded screw rod 34 is elastically connected with the material receiving concentration groove 41 through rubber, the movable plate 35 is driven to move through rotation of the threaded screw rod 34, adjustment of the distance between the centrifugal end pressure generated during hulling and the movable plate 35 is conveniently carried out, two groups of discharge ports 5 are arranged, rice is discharged from one group of rice after treatment, and husks removed from the other group of discharge ports 5 are discharged, during blanking, rice or rice husks are firstly transferred to the inside of the buffer cavity 17, the inconvenience that a user is inconvenient to collect due to the fact that the speed is too high during blanking of the rice or the rice husks is avoided, meanwhile, the second hydraulic air rod 33 can be utilized to drive the position of the built-in auxiliary cavity 22 to move, the rice or the rice husks in the buffer cavity 17 can be pushed to the discharge port 5 to be blanked through the position movement of the built-in auxiliary cavity 22, in addition, a user can place a conveying pipe or a bag for packaging the rice or the rice husks between the positioning plate 2804 and the discharge port 5 during blanking, then the position of the assembly plate 2803 is driven to move through the design of the first electric push rod 2802 in the connecting frame 2801, so that the end part of the positioning plate 2804 can be tightly attached to the outside of the connecting frame 2801, the limitation on the bag for conveying the rice or the rice husks is realized, and the collection of the rice or the rice husks is convenient; then, for wet rice husks or rice husks pre-stored in the built-in auxiliary cavity 22, the built-in auxiliary cavity 22 can be driven by the second hydraulic air rod 33 to move so that the built-in auxiliary cavity 22 is located in the material receiving area of the buffer cavity 17, the rice husks can fall into the built-in auxiliary cavity 22, then the position of the push plate 2403 can be driven by the design of the first hydraulic air rod 2401 to move so as to realize extrusion forming of the rice husks falling into the built-in auxiliary cavity 22, after the extrusion forming is finished, the connecting rod 26 is driven to rotate by the design of the servo motor 23 and the connecting shaft 25, the connecting rod 26 is connected with the bottom plate 27, so that the bottom plate 27 can rotate to one side relative to the built-in auxiliary cavity 22, the extruded rice husks can be transferred to the collecting tray 30 and conveyed again by the action of the electric sliding rail 31 and the sliding block 20, carry to the door plant 9 that the manual pulling of user and switching piece 8 rotate to be connected when being close to protective frame 1, the person of facilitating the use takes out the rice husk in the catch tray 30, hydraulic cylinder 18's design can drive support frame 32 upper and lower position removal in addition, with can make unloading frame 16 protrusion in protective frame 1 top through the upper and lower position removal to support frame 32, the person of facilitating the use manually carries out the unloading, also the person of facilitating the use simultaneously maintains unloading frame 16 is inside, in addition when support frame 32 reciprocates, the removal of discharge gate 5 position about the step can be gone on with step, can drive the outside first baffle 401 of discharge gate 5 when discharge gate 5 removes, mutual slip between second baffle 402 and the third baffle 403, supplementary discharge gate 5 reciprocates, be convenient for use according to the required height of unloading.

The embodiments of the present 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 embodiment was 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 (10)

1. The utility model provides a stepless regulation intelligent control rice huller, its characterized in that, including protective frame (1) and hydraulic cylinder (18), the inside of protective frame (1) is provided with support frame (32), and support frame (32) outside left end is provided with electrodeless adjusting motor (12), the output of electrodeless adjusting motor (12) has connection pad (13) through drive shaft connection, and the surface of connection pad (13) is provided with belt (14), rice huller main part (15) are installed to the other end of belt (14), and the front and back both ends of rice huller main part (15) all are provided with cushion chamber (17), cushion chamber (17) inside one end is installed and is placed frame (21), and the inside of placing frame (21) is provided with servo motor (23), place frame (21) surface one end and install second hydraulic pressure air stem (33), the output of servo motor (23) is connected with connecting axle (25), and the outside of connecting axle (25) is provided with joint pole (26), the tip of joint pole (26) is installed with floor (27), the surface of floor (27) is provided with auxiliary chamber (22), and the inside auxiliary chamber (22) is provided with the extrusion work subassembly (24) and carries out the extrusion rice huller when carrying out the extrusion work assembly (24), the internal extrusion rice huller including built-in the extrusion rice huller assembly (24), the extrusion rice huller assembly (24) that the collection was used for carrying out A fixed plate (2402) and a push plate (2403), the push plate (2403) is installed at the output end of a first hydraulic air rod (2401), a fixed plate (2402) is arranged on the outer surface of the top of a built-in auxiliary cavity (22), a hydraulic air cylinder (18) is arranged on two sides of the bottom of a support frame (32), a bottom plate (19) is arranged at the bottom of the hydraulic air cylinder (18), an electric sliding rail (31) is installed inside the bottom plate (19), a collection disc (30) is connected to the electric sliding rail (31) through a sliding block (20), a cavity (10) is arranged at the top of the protection frame (1), a seal plate (11) is installed at the top of the cavity (10) in a sliding mode, a first side plate (2) is clamped on the right side of the protection frame (1), a central feeding hole (37) is formed in the inside of the rice huller main body (15), an upper diamond sand disc (38) is fixedly installed at the lower end of the central feeding hole (37), a lower end of the upper diamond sand disc (38) is provided with a lower diamond sand disc (39), a transmission shaft (40) is installed at the middle of the transmission shaft (35), a screw thread groove (34) is installed on the outer portion of the rice huller main body (34), and a screw rod (34) is provided with a screw thread moving plate (34), and a fan (36) is arranged on one side of the material receiving centralized groove (41).

2. The rice huller as claimed in claim 1, wherein the built-in auxiliary chamber (22) is hollow, and the built-in auxiliary chamber (22) and the fixing plate (2402) are integrated.

3. The intelligent stepless-regulation controlled rice huller as claimed in claim 1, wherein a blanking frame (16) is arranged on the top of the rice huller body (15), and an adjusting component (29) for controlling blanking amplitude is arranged inside the blanking frame (16).

4. The stepless-regulation intelligent-control rice huller as claimed in claim 3, wherein the regulation assembly (29) comprises a top block (2901), a regulation plate (2902), a hinge block (2903), a second electric push rod (2904) and a movable plate (2905), the regulation plate (2902) is rotatably mounted inside the top block (2901), the movable plate (2905) is slidably disposed inside the regulation plate (2902), and the second electric push rod (2904) is mounted at one end of the outer surface of the regulation plate (2902) through the hinge block (2903).

5. The stepless-regulation intelligent-control rice huller as claimed in claim 1, wherein the protection frame (1) is externally provided with a connecting frame (3), a discharge port (5) is arranged inside the connecting frame (3), and a cover plate (6) is clamped inside the discharge port (5).

6. The stepless regulation intelligent control rice huller as claimed in claim 5, wherein a limiting component (28) for limiting the bag is arranged outside the discharge port (5), the limiting component (28) comprises a connecting frame (2801), a first electric push rod (2802), a gathering plate (2803) and a positioning plate (2804), the first electric push rod (2802) is arranged inside the connecting frame (2801), the gathering plate (2803) is installed at the output end of the first electric push rod (2802), and the positioning plate (2804) is arranged on the outer surface of the gathering plate (2803).

7. The stepless regulation intelligent control rice huller as claimed in claim 6, wherein said positioning plate (2804) is in an "L" shape, and the positioning plate (2804) and the assembling plate (2803) are integrated.

8. The stepless-regulation intelligent-control rice huller as claimed in claim 5, wherein the outer surface of the discharge port (5) is provided with a regulation component (4) for assisting in height regulation, the regulation component (4) comprises a first baffle (401), a second baffle (402) and a third baffle (403), the second baffle (402) is slidably mounted inside the first baffle (401), the third baffle (403) is slidably mounted inside the second baffle (402), the left side of the protection frame (1) is provided with a second side plate (7) in a clamping manner, the outer surface of the second side plate (7) is provided with a transfer block (8), and the inside of the transfer block (8) is provided with a door panel (9) in a rotating manner.

9. The intelligent stepless-regulation controlled rice huller as claimed in claim 1, wherein the inside of the placing cavity (10) is a hollow structure, and the bottom of the placing cavity (10) is connected with the protection frame (1) in a clamping manner.

10. The method of any one of claims 1 to 9, wherein the method of operating a stepless regulation intelligent control rice huller comprises the following steps,

firstly, a placing cavity (10) can be selectively clamped and limited at the upper end of a protective frame (1) according to use requirements, a user places rice in the placing cavity (10) in advance after clamping and limiting, and after placing is finished, a sealing plate (11) is manually slid along the horizontal direction of the top of the placing cavity (10) until the sealing plate (11) is completely overlapped with the placing cavity (10);

secondly, the placed paddy is transferred to a discharging frame (16) at the top of the main body (15) of the rice huller through the action of gravity, according to the requirement of the main body (15) of the rice huller for processing, the angle of the adjusting plate (2902) is adjusted by matching the design of the second electric push rod (2904) and the hinging block (2903) with the rotation of the top block (2901) and the adjusting plate (2902), two groups of adjusting plates (2902) are arranged, the angle of the two adjusting plates (2902) is adjusted, the discharging condition is conveniently controlled, and the situation that the main body (15) of the rice huller is blocked due to excessive discharging is avoided;

step three, the rice after the blanking adjustment enters between an upper diamond sand table (38) and a lower diamond sand table (39) through a central feeding hole (37), then the design of a stepless adjusting motor (12), a connecting disc (13) and a belt (14) can drive a conveying shaft (40) to rotate, the rotation of the conveying shaft (40) can synchronously drive the lower diamond sand table (39) to rotate, centrifugal force generated by the rotation of the lower diamond sand table (39) forces the rice to enter an annular shelling area between the two tables, shelling treatment is realized under the action of end pressure and friction, the shelled rice can enter a collecting groove (41), rice in the collecting groove (41) is separated from shells by utilizing the design of a fan (36), in addition, a user can disassemble between the stepless bolt adjusting motor (12) and a supporting frame (32) through manual rotation, the stepless adjusting motor (12) is selected for the supporting frame (32) to fix the height again, the stepless adjusting motor (12) and the supporting frame (32) are fixed by utilizing the design of bolts, the conveying shaft sleeve (40) is synchronously adjusted to move upwards and the conveying shaft (40) is connected with a main body (15), and the conveying shaft (40) is adjusted by utilizing a spacing bolt (40), and the upper diamond sand table (40), and the conveying shaft (40), the rice huller is convenient to hulle according to the granularity of rice, a user rotates the threaded screw rod (34) clockwise or anticlockwise, the threaded screw rod (34) is in threaded connection with the rice huller main body (15), the threaded screw rod (34) is in elastic connection with the material receiving centralized groove (41) through rubber, the movable plate (35) can be driven to move through the rotation of the threaded screw rod (34), the distance between the threaded screw rod and the movable plate (35) can be conveniently adjusted according to centrifugal end pressure generated during hulling, two groups of discharge holes (5) are arranged, so that rice after treatment is discharged from one group of rice, husks removed from rice are discharged from the other group of discharge holes (5), and rice or rice husks can be firstly transferred into the buffer cavity (17) during discharging, avoid too fast user inconvenient collection when the unloading of corn or rice husk, can utilize second hydraulic pressure pneumatic rod (33) to drive built-in supplementary chamber (22) position to remove simultaneously, can push the unloading to discharge gate (5) department to corn or rice husk inside cushion chamber (17) through the position removal to built-in supplementary chamber (22), user can place conveying pipe or the sack of packing corn or rice husk between locating plate (2804) and discharge gate (5) during the unloading in addition, then drive set board (2803) position through the design of first electric putter (2802) in link frame (2801) and move, thereby locating plate (2804) tip can be in close fit together with link frame (2801) outside, therefore, the limit of the conveying pipe or the bag for packaging the rice or the rice husks is realized, and the rice or the rice husks are convenient to collect;

fourthly, for wet rice husks or rice husks which are pre-stored in the built-in auxiliary cavity (22), the built-in auxiliary cavity (22) can be driven by the second hydraulic air rod (33) to move to be in a material receiving area of the buffer cavity (17), the rice husks can fall into the built-in auxiliary cavity (22), then the push plate (2403) can be driven by the design of the first hydraulic air rod (2401) to move to achieve extrusion forming of the rice husks falling into the built-in auxiliary cavity (22), after extrusion forming is finished, the connecting rod (26) is driven by the design of the servo motor (23) and the connecting shaft (25) to rotate, the connecting rod (26) is connected with the bottom plate (27), therefore, the bottom plate (27) can rotate to one side relative to the built-in auxiliary cavity (22), the extruded rice husks can be transferred into the collecting disc (30), re-conveying is performed by the action of the electric sliding rails (31) and the sliding blocks (20), when a user conveys the rice husks to a position close to the protective frame (1), the user pulls the door plate (8) connected with the built-in the connecting block (22) to rotate, and the collecting disc (30) can be taken out conveniently.

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