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CN-117246741-B - Conveying and storing system for rice processing

CN117246741BCN 117246741 BCN117246741 BCN 117246741BCN-117246741-B

Abstract

The invention relates to the technical field of rice processing devices and discloses a conveying and storing system for rice processing, which comprises a plurality of rows of rice bin groups which are arranged in parallel, wherein one side of each row of rice bin groups is provided with a conveying frame which is parallel to the rice bin groups, two side ends of the conveying frame are respectively provided with a parallel feeding frame and a parallel discharging frame, the conveying frame, the feeding frame, the discharging frame and the feeding frame are respectively provided with a rice bin in a sliding manner, the side edge of each rice bin is provided with a driving rod which is in sliding connection with a side plate of the rice bin, the driving rod can be intermittently clamped with a connecting rod arranged on the outer side surface of a Mi Cang cylinder, one side of each rice bin is in sliding connection with a box cover, and two rotatable door plates are symmetrically arranged on the side edge of each rice bin cylinder which is at the same side as the connecting plate.

Inventors

  • Chai Keping

Assignees

  • 潜江市楚禾农贸有限公司

Dates

Publication Date
20260508
Application Date
20231101

Claims (8)

  1. 1. A conveying and storing system for rice processing is characterized by comprising a plurality of rows of rice bin groups which are arranged in parallel, each row of rice bin groups comprises a plurality of Mi Cangtong (1) used for placing rice with different specifications, one side of each row of rice bin groups is provided with a conveying frame (2) parallel to the rice bin groups, two side ends of each conveying frame (2) are respectively provided with a parallel feeding frame (3) and a parallel discharging frame (4), each feeding frame (3) and each discharging frame (4) are perpendicular to each conveying frame (2), one end of each feeding frame (3) and one end of each discharging frame (4) are provided with a feeding frame (5) parallel to each conveying frame (2), and each conveying frame (2), each feeding frame (3) and each discharging frame (4) are provided with a feeding frame (5) parallel to each conveying frame (2), The discharging frame (4) and the feeding frame (5) are respectively and rotatably connected with a rotary roller (7), and the conveying frame (2), the feeding frame (3) and the feeding frame (5), The utility model provides a rice bin (6) is slidingly conveyed on a discharging frame (4) and a feeding frame (5), each rice bin (6) side is provided with a driving rod (8) which is slidingly connected to a side plate of the rice bin (6), the driving rods (8) can be in signal connection with a connecting rod (9) arranged on the outer side surface of Mi Cangtong (1) and then are in intermittent clamping connection, one side of the rice bin (6) is slidingly connected with a box cover (10), each side edge of the rice bin barrel (1) on the same side as the connecting rod (9) is symmetrically provided with two rotatable door plates (11), a driving assembly which drives the door plates (11) to rotate and the box cover (10) to turn is arranged in the conveying frame (2), the connecting rod (9) is vertically fixed in a lifting rack (22), the lifting rack (22) is in external engagement with a first rotating gear (23), a first driving bevel gear (24) is coaxially fixed on the rotating gear (23), the first driving bevel gear (24) is in external engagement with a second driving bevel gear (25), the second driving bevel gear (25) is fixedly engaged with a third driving bevel gear (26), the third driving bevel gear (26) is fixedly engaged with the third driving bevel gear (27), the driving bevel gear IV (27) is coaxially fixed with a driving bevel gear I (28) and a driving bevel gear II (29) with opposite tooth directions, the driving bevel gear I (28) and the driving bevel gear II (29) are respectively externally meshed with a driven driving bevel gear I (30) and a driven driving bevel gear II (31) which are fixed at the tops of two door plates (11), the driving assembly further comprises a rack I (12) which is connected to the side edge of the rice bin (6) in a sliding manner, the driving rod (8) is vertically fixed to the end part of the rack I (12) close to the rice bin barrel (1), the rack I (12) is externally meshed with a driving gear I (13) which is positioned above the rack I (12), a rotating shaft is fixed at the center of the driving gear I (13), the rotating shaft penetrates through the other side surface of the rice bin (6) and is fixedly provided with a driven gear I (14), the driven gear II (15) is externally meshed with a driven gear II (14), the driven gear II (15) is coaxially fixed with a driving pulley, the driving pulley is coaxially connected with the driven pulley through a coaxial belt, the driven pulley is fixedly connected with the driven pulley (16) through the driven belt, the driven pulley is rotatably connected with one end of the driving rod (16) and the driving rod (16) is symmetrically connected with one end (17) of the driving rod (16) in a short box (17) through the inner side of the driving rod (16), the novel rice box is characterized in that a spring (18) is connected to the first short rod (17), the other end of the spring (18) is connected to the second short rod (19), the first short rod (17) is driven by the spring (18) to be close to the second short rod (19), the second short rod (19) is fixed to the inner side of the rice box (6), concave sliding grooves (20) are formed in two sides, close to the two rotating rods (16), of the box cover (10), a first sliding block (21) is hinged to the end edge of the top cover of the rice box (6), the first sliding block (21) is connected to the first concave sliding groove (20) in a sliding mode, and a feeding hole (40) is formed in the top of the rice box (6).
  2. 2. The rice processing is characterized in that the driving assembly further comprises two conveying plates (32) positioned at the bottom of the rice box (6), conveying rollers (33) are rotatably connected to the conveying plates (32), the rotation direction of the conveying rollers (33) is perpendicular to the rotation direction of the rotating rollers (7) of the conveying frame (2), the conveying plates (32) are respectively and vertically fixed to the tops of two vertical plates of the U-shaped sliding plate (34), rotating wheels (35) are rotatably connected to the outer sides, far away from the two vertical plates, of the U-shaped sliding plate (34), of the two sliding plates are slidably clamped in sliding grooves (36) on the opposite sides of the moving frame (38), the sliding grooves (36) are in an inverted L shape, a cross rod of the U-shaped sliding plate (34) is hinged to the end portion of a piston rod of a driving cylinder (37), the other end of the driving cylinder (37) is hinged to the moving frame (38), the upper end of the moving frame (38) is opened, the other two sides of the moving frame (38) are fixedly connected to one side of the moving frame (39), and the other two sides of the moving frame (38) are fixedly connected to one side of the moving frame (39) of the belt (2).
  3. 3. The rice processing transportation and storage system according to claim 2, wherein a rotating shaft positioned at the center of the first driving gear (13) penetrates through a stripper plate (41) fixed in the rice bin (6), the stripper plate (41) is rotatably connected in the rice bin (6), the stripper plate (41) is hollow and is internally and slidably connected with an extension plate (42), and the other end of the extension plate (42) away from the stripper plate (41) is hinged and slidably connected to the inner side surface of the rice bin (6) away from the bin cover (10).
  4. 4. A conveying and storing system for rice processing is characterized in that a driving gear II (43) is rotatably connected below a rack I (12), the rack I (12) is externally meshed with the driving gear II (43), a toothed part below the rack I (12) is longer than a toothed part above the rack I (12), a rack II (44) is slidably connected to the side face of a rice bin (6) below the driving gear II (43), the rack II (44) is externally meshed with the driving gear II (43), the rack II (44) penetrates through one side of the rice bin (6) and is connected with an extension plate (45) at the bottom of the rice bin (6), and the extension plate (45) is slidably connected into an empty groove at the bottom of the rice bin (6).
  5. 5. The system of claim 4, wherein the reversing assembly is slidably connected to the feeding frame (3) and the discharging frame (4), the reversing assembly comprises a reversing plate (46), a conveying roller II (47) is rotatably connected to the reversing plate (46), the rotation direction of the conveying roller II (47) is perpendicular to the rotation direction of the conveying roller (7) in the feeding frame (3) and the discharging frame (4), the reversing plate (46) is vertically fixed to a piston rod of a driving cylinder II, the other end of the driving cylinder II is fixed to a supporting plate (48), the supporting plate (48) is connected to a conveying belt II, the conveying belt II is rotatably connected to the feeding frame (3) and the discharging frame (4), and the conveying frame (3), the discharging frame (4) and the conveying frame (5) are identical in height and lower than the conveying roller (7) in the conveying frame (2).
  6. 6. A rice processing transportation and storage system according to claim 5, further comprising a control system, wherein the control system controls the movement of the moving frame (38) and the supporting plate (48) in the transportation frame (2), the feeding frame (3) and the discharging frame (4) and the induction of the driving rod (8) and the connecting rod (9), a driving cylinder I (37) in each transportation frame (2) is in signal connection with a rice bin cylinder (1) needing to be fed in each rice bin group, and the driving cylinder I (37), the driving rod (8) and the connecting rod (9) are in signal connection.
  7. 7. The rice processing conveying and storing system according to claim 6, wherein the end part of the discharging frame (4) close to the feeding frame (5) and the end part of the feeding frame (5) close to the feeding frame (3) are respectively provided with an L-shaped baffle plate (49), a direction-adjusting cylinder I (50) and a direction-adjusting cylinder II (51) are respectively arranged in the baffle plate (49), a piston rod of the direction-adjusting cylinder I (50) is consistent with the rotation direction of the rotating roller (7) of the feeding frame (5), and a piston rod of the direction-adjusting cylinder II (51) is consistent with the rotation direction of the rotating roller (7) of the feeding frame (3).
  8. 8. A rice processing transportation and storage system according to claim 7, wherein the end of the transportation frame (2) close to the feeding frame (3) is provided with a guide plate (52).

Description

Conveying and storing system for rice processing Technical Field The invention relates to the technical field of rice processing devices, in particular to a conveying and storing system for rice processing. Background Rice is one of the staple foods in China, and the processing method thereof is continuously developed along with the improvement of the living standard of people. The rice is processed into edible rice generally by passing through. At present, the rice processing process flow mainly comprises a rice pre-cleaning section, a rice hulling separation section, a rice milling and finished product finishing section. For some large-scale processing factories, processed rice finished products can be temporarily stored in a granary, and the processed rice finished products are unloaded from the granary and then packaged and sold when being sold, and the naked rice is conveyed to the granaries of different grades by adopting a conveying belt at present generally because the rice is graded, so that the occupied area of the whole system is large, the cost is high, and meanwhile, the naked rice can cause certain loss and generate more dust during transportation, thereby influencing the environment. Disclosure of Invention The invention aims to provide a conveying and storing system for rice processing, which has the effects of automatically classifying and storing rice with different specifications, effectively preventing rice from being polluted, and being small in occupied area and high in working efficiency in the whole process. The technical aim of the invention is achieved by the following technical scheme that the rice bin assembly comprises a plurality of rows of rice bin groups which are arranged in parallel, each row of rice bin groups comprises a plurality of Mi Cang barrels used for placing rice with different specifications, one side of each row of rice bin groups is provided with a conveying frame which is parallel to the rice bin groups, two side ends of each conveying frame are respectively provided with a parallel feeding frame and a parallel discharging frame, each feeding frame and each discharging frame are perpendicular to the conveying frame, one end of each feeding frame and one end of each discharging frame are provided with a feeding frame which is parallel to the conveying frame, rotating rollers are respectively connected to the conveying frames, each feeding frame, each discharging frame and each feeding frame in a sliding mode, each rice bin side face is provided with a driving rod which is connected to a rice bin side plate in a sliding mode, one side of each driving rod can be connected with a connecting rod signal arranged on the outer side face of the Mi Cang barrel in a signal mode, each rice bin side is connected with a box cover in a sliding mode, each bin side face on the same side of the connecting plate is symmetrically provided with two door plates which can be connected with the driving rods in a sliding mode, and the driving rod is connected with the driving rod in a rotating mode is connected with the driving rod assembly. According to the technical scheme, the conveying frames, the feeding frames, the discharging frames and the feeding frames are arranged, so that the rice can be circularly collected into the rice bin barrels, meanwhile, the quantity of the conveying frames, namely the quantity of the rice bin groups, can be increased or decreased according to the size of a factory, the occupied area of the whole process is suitable for different factories, the adaptability is high, meanwhile, the rice is conveyed in the Yu Mi boxes, the rice is prevented from being scattered or polluted in the conveying process, in addition, a plurality of rice bin barrels are arranged in each row of rice bin groups, the rice can be used for placing the rice with different quality or specification, the rice is effectively collected in a classified mode, a plurality of rows of rice bin groups are arranged, the rice with different specifications can be guaranteed to be simultaneously collected into the rice bin barrels, the working efficiency is improved, the rice bin barrels in the designated rice bin groups are controlled by the control system, the efficient conveying route is avoided, the rice bin barrels and the rice bin boxes are automatically opened under the setting of the driving assembly, the rice bin barrels and the rice bin boxes are ensured to be smoothly thrown into the rice bin barrels, and the whole unloading efficiency is improved. The connecting rod is vertically and vertically fixed in the lifting rack, the lifting rack is externally meshed with the first rotating gear, the first rotating gear is coaxially fixed with the first driving bevel gear, the first driving bevel gear is externally meshed with the first driving bevel gear, the second driving bevel gear is coaxially fixed with the third driving bevel gear, the third driving bevel gear is externally meshed wit