CN112387331A - Rice processing system and processing method - Google Patents

Abstract

The invention provides a rice processing system and a rice processing method. The rice processing system includes: the device comprises a dust removal process, an impurity removal process, a drying process, a rice milling process, a color sorting process, a polishing process and a packaging process, wherein the output end of the dust removal process is connected with the input end of the impurity removal process, the output end of the impurity removal process is connected with the input end of the drying process, the output end of the drying process is connected with the input end of the rice milling process, the output end of the rice milling process is connected with the input end of the color sorting process, the output end of the color sorting process is connected with the input end of the polishing process, and the output end of the polishing process is connected with the input end of the packaging process. The rice processing system provided by the invention can sieve impurities and dust contained in the rice for multiple times, not only can improve the effect of sieving the impurities and the dust, but also can improve the quality of the rice, and is further worthy of popularization and application.

Description

Rice processing system and processing method

Technical Field

The invention relates to the field of rice processing, in particular to a rice processing system and a rice processing method.

Background

Rice, also known as "rice". It is divided into long-shaped rice, polished round-grained rice and glutinous rice. The rice is mild in nature and sweet in taste. Has effects in invigorating middle warmer, nourishing stomach, replenishing vital essence, improving intelligence, regulating functions of five internal organs, promoting blood circulation, relieving restlessness, quenching thirst, and relieving diarrhea.

The rice, entering spleen, stomach and lung channels, has the functions of invigorating spleen and replenishing qi, nourishing yin and moisturizing lung, strengthening spleen and stomach and removing polydipsia. Ancient health preserving families also advocate that the porridge is eaten in the morning to promote the production of body fluid, so that patients with cough and constipation caused by lung yin deficiency can be cooked with rice in the morning and at night. Frequent drinking of the rice porridge helps body fluid to grow hair and can relieve discomfort such as dry skin to a certain extent. If pears are added during porridge cooking, the traditional Chinese medicine health preserving effect is better.

At present, when processing the rice, there is certain defect, for example at the in-process of sieving the corn, when impurity and dust that contain in the corn are more, can't be clean with impurity and dust screening, after the screening, probably still can have a small amount of impurity and dust, and then influence the quality of rice.

Therefore, there is a need to provide a rice processing system and a processing method thereof to solve the above technical problems.

Disclosure of Invention

The invention provides a rice processing system and a rice processing method, which solve the problems that when the rice contains more impurities and dust, the impurities and the dust can not be screened completely, and a small amount of impurities and dust can exist after screening is finished, so that the quality of the rice is influenced.

In order to solve the above technical problems, the present invention provides a rice processing system, comprising:

the device comprises a dust removal process, an impurity removal process, a drying process, a rice milling process, a color sorting process, a polishing process and a packaging process, wherein the output end of the dust removal process is connected with the input end of the impurity removal process, the output end of the impurity removal process is connected with the input end of the drying process, the output end of the drying process is connected with the input end of the rice milling process, the output end of the rice milling process is connected with the input end of the color sorting process, the output end of the color sorting process is connected with the input end of the polishing process, and the output end of the polishing process is connected with the input end of the packaging process.

A rice processing method comprises the rice processing system, wherein the rice processing system needs to use a rice processing method during processing, and the rice processing method comprises the following steps:

s1, dust removal process: firstly, putting a certain amount of paddy into a dust removal device for screening, and then removing dust in a paddy pile;

s2, impurity removal process: putting the rice obtained in the step S1 into an impurity removal device for removing impurities, and removing stones and empty shells contained in the rice;

s3, a drying process: putting the rice obtained in the step S2 into a drying device for drying, and drying the partially wet rice in the rice;

s4, a rice milling process: putting the dried rice in the step S3 into a rice milling device for whitening treatment, and removing cortex and embryo;

s5, color selection: after the rice milling in the step S4 is finished, the rice enters a color sorter to remove the heterochromatic grains in the rice grains;

s6, polishing: putting the rice from which the abnormal grains are removed in the step S5 into a polishing machine for polishing;

s7, packaging: weighing and bagging according to the requirement of weighing the rice package.

Preferably, the time for removing the impurities in S2 is 30 minutes.

Preferably, the drying time in S3 is 15 minutes.

Preferably, the dust removing device used in S1 includes:

a first processing box;

the first fixed box is fixedly arranged on two sides inside the first processing box, a first motor is arranged on one side inside the first fixed box, one end of an output shaft of the first motor is fixedly connected with a first rotating disc, the first rotating disc is rotatably connected with a first rotating part, a first pulling rod is fixedly connected onto the first rotating part, a first sliding plate is slidably connected between two sides inside the first fixed box, one end of the first pulling rod is movably connected onto the first sliding plate, a first dust suction head is arranged at the bottom of the first sliding plate, the bottom of the first dust suction head penetrates through the first fixed box and extends to the outside of the first fixed box, a first hose is communicated with one side of the first dust suction head, a first dust removal box is fixedly connected to one side of the first processing box, and a first suction pump is arranged on one side inside the first dust removal box, the one end of first hose runs through in proper order first processing case and first dust removal case extend to the inside of first dust removal case, first hose extend to the one end of first dust removal incasement portion with the inside intercommunication of first suction pump, the positive both sides of first fixed box are all rotated and are connected with first rotation disc.

The utility model discloses a dust removal incasement portion, including first dust removal incasement portion, first suction pump's bottom intercommunication has first intake pipe, the bottom of first intake pipe is run through first connecting plate extends to the bottom of first connecting plate, it is connected with first axis of rotation to rotate between the both sides of first dust removal incasement portion, fixedly connected with is first to place the board in the first axis of rotation, first place be provided with two on the board and paste paper, paste and be provided with two first magnet pieces on the paper, one side of first magnet piece contact in first place on the board.

The first box body is fixedly connected between two sides of the interior of the first processing box, a first driving motor is arranged on one side of the interior of the first box body, a first lead screw is fixedly connected to an output shaft of the first driving motor, and one end of the first lead screw is rotatably connected to one side of the interior of the first box body.

The utility model discloses a lead screw, including first lead screw, first box body, first cell body, first shower nozzle, first connecting pipe, first lead screw's surface threaded connection has first threading board, the top of first threading board is run through first box body extends to the outside of first box body, first cell body has been seted up on the first threading board, the top of first threading board is provided with first shower nozzle, the inside one side of first cell body is provided with the second and inhales the pump, one side intercommunication that the pump was inhaled to the second has first connecting pipe, the top of first connecting pipe is run through first cell body extends to the outside of first cell body, first connecting pipe extends to the outside one end of first cell body with the inside intercommunication of first shower nozzle.

One side intercommunication of second suction pump has the second hose, the one end of second hose runs through in proper order first cell body and first processing case and extend to the outside of first processing case, be provided with first collecting vat between the inside both sides of first processing case.

First screening board and second screening board of sliding connection respectively extremely down from last between the both sides of first processing incasement portion, the bottom fixedly connected with second connecting plate of first screening board, the bottom of second connecting plate is fixed in on the second screening board, the bottom of second screening board is provided with first compression spring through the fixed block, the first dog of the equal fixedly connected with in both sides of first processing incasement portion, first compression spring's bottom mounting is in on the first dog.

The bottom of the second screening plate is fixedly connected with a pulling assembly.

One side in the first processing box is provided with a first discharging pipe and a second discharging pipe, one end of the first discharging pipe is in contact with the first screening plate, and one end of the second discharging pipe is in contact with the second screening plate.

Preferably, the device for removing impurities in S2 includes: a third processing box;

first electric telescopic handle, two first electric telescopic handle's top all is fixed in one side of third processing incasement portion to fixedly connected with first carriage between two first electric telescopic handle's the bottom, sliding connection has the second sliding plate between the inside both sides of first carriage, the bottom of second sliding plate is provided with the second dust absorption head, the inside one side of first carriage is provided with second electric telescopic handle, second electric telescopic handle's one end is fixed in on the second sliding plate, one side fixedly connected with second dust removal case of third processing case, one side of second dust removal incasement portion is provided with the fifth suction pump, the top intercommunication of fifth suction pump has the fourth hose, the one end of fourth hose runs through in proper order second dust removal case and third processing case extend to the inside of third processing case, the fourth hose extend to the inside one end of third processing incasement portion with the inside of second dust absorption head.

The opposite side intercommunication of fifth suction pump has the fourth connecting pipe, the one end of fourth connecting pipe runs through in proper order second dust removal case and third processing case extend to the inside of third processing case, the bottom intercommunication of fifth suction pump has first inlet pipe, the first piece of collecting of one side fixedly connected with of second dust removal incasement portion, the bottom of first inlet pipe with the inside intercommunication of first collection piece.

The top of the third processing box is fixedly connected with a second box body, a fourth motor is arranged on one side inside the second box body, one end of an output shaft of the fourth motor is fixedly connected with a first extrusion turntable, a third sliding plate is connected between two sides inside the second box body in a sliding mode, and a sliding ball is fixedly connected onto the third sliding plate.

Two second sliding grooves of one side fixedly connected with of the inside of second box, the surface sliding connection of sliding ball in the inside of second sliding groove, the bottom fixedly connected with second sliding block of sliding ball, the both sides sliding connection of second sliding block in the inside both sides of second sliding groove, the bottom of second sliding block is provided with first buffer spring, first buffer spring's bottom set up in one side of second sliding groove inside.

The bottom of the third sliding plate is fixedly connected with a first extrusion plate, the bottom of the first extrusion plate sequentially penetrates through the second box body and the third processing box and extends to the inside of the third processing box, a third screening plate is connected between two sides of the inside of the third processing box in a sliding mode, and the bottom of the first extrusion plate is fixed on the third screening plate.

The inside both sides of third processing case all have two fourth screening boards through slider sliding connection, be provided with first connecting piece on the fourth screening board, sliding connection has two third sliding blocks between the inside both sides of first connecting piece, one side of fourth screening board is run through first connecting piece and is extended to the inside of first connecting piece, the fourth screening board extends to the inside one side of first connecting piece is fixed in on the third sliding block, two one side that the third sliding block is relative is provided with second extrusion spring.

One side fixedly connected with third box of third processing case, one side of the inside of third box is provided with the fifth motor, the first master gear of one end fixedly connected with of fifth motor output shaft, it is connected with the third axis of rotation to rotate between the both sides of the inside of third processing case, two second turntables of fixedly connected with in the third axis of rotation, it is connected with the second and rotates the piece to rotate on the second turntable, fixedly connected with third pulling rod on the second rotates the piece, the top swing joint of third pulling rod in on the fourth screening board.

One end of the third rotating shaft penetrates through the third processing box and the third box body in sequence and extends into the third box body, a first driven gear is fixedly connected to one end of the third rotating shaft extending into the third box body, and the outer surface of the first driven gear is meshed with the outer surface of the first main gear.

The inside one side fixedly connected with fourth box of third processing incasement portion, the inside one side of fourth box is provided with the sixth suction pump, one side intercommunication of sixth suction pump has the first subassembly of blowing, the top of the first subassembly of blowing is run through the fourth box extends to the outside of fourth box, the inside one side of fourth box is provided with two heater strip subassemblies, fixedly connected with third baffle between the inside both sides of fourth box, one side intercommunication of sixth suction pump has the third intake pipe, the one end of third intake pipe is run through the third baffle extends to one side of third baffle.

The bottom fixedly connected with first base of third processing case, be provided with conveying mechanism on the first base, one side fixedly connected with fourth baffle of third processing incasement portion.

Preferably, the drying device for use in S3 includes:

a second processing box;

the bottom of the first box body is fixed at the top of the second processing box, a second rotating shaft is rotatably connected between two sides in the first box body, a first roller is fixedly connected to the outer surface of the second rotating shaft, a first sliding groove is formed in the first roller, a first fixing plate is slidably connected to the inside of the first sliding groove, the bottom of the first fixing plate sequentially penetrates through the first box body and the second processing box and extends to the inside of the second processing box, a first heating spray head is arranged on one side of the first fixing plate extending to the inside of the second processing box, one end of the second rotating shaft penetrates through the first box body and extends to the outside of the first box body, a worm wheel is fixedly connected to one end of the second rotating shaft extending to the outside of the first box body, and a second motor is arranged on one side of the second processing box, one end of the output shaft of the second motor is fixedly connected with a worm, and the outer surface of the worm is in transmission connection with the outer surface of the worm wheel.

The utility model discloses a heating device, including first heating cabinet, second processing case, first heating cabinet, first hose, second processing case, first heating cabinet, second hose, first heating cabinet, second hose, first heating cabinet, second heating cabinet, first.

Fixedly connected with second fixed plate between the inside both sides of second processing case, the first workbin of one side fixedly connected with at second fixed plate top, the bottom intercommunication of first workbin has first feed opening, the bottom of first feed opening runs through the second fixed plate extends to the bottom of second fixed plate.

The top fixedly connected with second box body of second fixed plate, the inside one side of second box body is provided with the third motor, the first (mixing) shaft of one end fixedly connected with of third motor output shaft, the top of first (mixing) shaft runs through the second box body and extends to the outside of second box body.

The first baffle of one side fixedly connected with of second processing incasement portion, one side of first baffle bottom contact in the top of second box body, the opposite side at second fixed plate top is provided with the fourth suction pump, the top intercommunication of fourth suction pump has first exhaust subassembly, one side intercommunication of fourth suction pump has the second connecting pipe, the one end of second connecting pipe runs through in proper order second processing case and first heating cabinet extend to the inside of first heating cabinet.

One side of second box body is provided with second driving motor, the first case of depositing of bottom fixedly connected with that just is located the second fixed plate between the inside both sides of second processing incasement portion, the first top intercommunication of depositing the case has the second feed opening.

The top of the first storage box is rotatably connected with two first carrier rollers, the tops of the two first carrier rollers are rotatably connected to the second fixing plate, the top of the first carrier roller penetrates through the second fixing plate and extends to the top of the second fixing plate, and one side, extending to the top of the second fixing plate, of the first carrier roller is fixed to the output shaft of the second driving motor.

Sliding connection has first regulating plate between the relative one side of first feed opening and second feed opening, four first sliding blocks of the bottom fixedly connected with of first regulating plate, four sliding connection in the bottom sliding connection of first sliding block on the first case of depositing.

One side fixedly connected with second pulling rod of first regulating plate, two the transmission is connected with first drive belt between the surface of first bearing roller, the one end of second pulling rod is fixed in on the first drive belt.

One side intercommunication of fourth suction pump has the second intake pipe, the bottom of second intake pipe runs through in proper order the second fixed plate with first deposit the case and extend to first inside of depositing the case, first one side sliding connection who deposits incasement portion has the second regulating plate, two second baffles of fixedly connected with on the second regulating plate, first recess has been seted up on the second baffle, one side fixedly connected with second pulling subassembly of second regulating plate, one side of second pulling subassembly runs through in proper order first deposit case and second processing case and extend to the outside of second processing case.

Preferably, the rice milling device used in the S4 comprises:

a fourth processing box;

the bottom of the feeding piece is communicated with the top of the fourth processing box;

one side of each of the two second collecting pieces is fixed on two sides of the interior of the feeding piece;

a sixth motor, the sixth motor is arranged at the top of the feeding part, one end of an output shaft of the sixth motor is fixedly connected with a fourth rotating shaft, the bottom end of the fourth rotating shaft penetrates through the feeding part and extends into the feeding part, the outer surface of the fourth rotating shaft is fixedly connected with a first screening part and a second screening part from top to bottom respectively, the outer surface of the fourth rotating shaft is rotatably connected with a processing box, one side of the inside of the processing box is provided with a third driving motor, one end of the output shaft of the third driving motor is fixedly connected with a second main gear, the outer surface of the second main gear is meshed with two straight tooth plates, one sides of the two straight tooth plates are fixedly connected with a fourth sliding plate, the two sides of the fourth sliding plate are slidably connected with the two sides of the inside of the processing box, and one side of the fourth sliding plate is fixedly connected with a fifth screening plate, one side of the fifth screening plate penetrates through the processing box and extends to the outside of the processing box, and the fifth screening plate extends to one side of the outside of the processing box and is provided with a third dust collection head.

The first dust suction head is arranged on the first dust suction head, the second dust suction head is arranged on the second dust suction head, a second suction pump is arranged on one side of the interior of the second collection part, a fifth hose is communicated with one side of the seventh suction pump, the top end of the fifth hose penetrates through the second collection part and extends to the exterior of the second collection part, and the fifth hose extends to one end of the exterior of the second collection part and is communicated with the interior of the third dust suction head.

The bottom of the seventh suction pump is communicated with a gas collecting pipe, two ends of the gas collecting pipe are fixed to two sides of the interior of the second collecting part, a fifth sliding plate is connected between two sides of the interior of the second collecting part in a sliding mode, a dust adhering plate is arranged on the fifth sliding plate, two third extrusion springs are arranged at the bottom of the fifth sliding plate, and the bottom ends of the two third extrusion springs are arranged on one side of the interior of the second collecting part.

And one side inside the feeding piece is communicated with two second feeding pipes.

The two sides of the processing box are fixedly connected with third fixing plates, one side of each third fixing plate is fixed to the two sides inside the feeding part, and the bottom of the third dust collection head is connected to the third fixing plates in a sliding mode.

And a rice milling device is arranged between two sides of the inner part of the fourth processing box, and a third feed opening is formed in the bottom of the rice milling device.

One side fixedly connected with bottom plate of fourth processing case, be provided with the seventh motor on the bottom plate, the one end fixedly connected with fifth axis of rotation of seventh motor output shaft, the one end of fifth axis of rotation runs through the fourth processing case and extends to the inside of fourth processing case, the fifth axis of rotation extend to the inside one end of fourth processing case rotate connect in the inside one side of fourth processing case.

And the outer surface of the fifth rotating shaft is fixedly connected with a screening piece.

The bottom fixedly connected with second base of fourth processing case, the piece is collected to one side fixedly connected with third at second base top, the top that the piece was collected to the third is provided with the eighth aspiration pump, one side intercommunication of eighth aspiration pump has the dust extraction pipe, the one end of dust extraction pipe runs through fourth processing case extends to the inside of fourth processing case.

The other side of the eighth suction pump is communicated with a fifth connecting pipe, and the bottom end of the fifth connecting pipe is communicated with the inside of the third collecting part.

Compared with the related art, the rice processing system and the processing method provided by the invention have the following beneficial effects:

the invention provides a rice processing system which can sieve impurities and dust contained in rice for many times, can improve the effect of sieving the impurities and the dust, further improves the quality of the rice, and is further worthy of popularization and application.

Drawings

FIG. 1 is a schematic structural view of a preferred embodiment of a rice processing system and method of the present invention;

FIG. 2 is a schematic structural diagram of a dust removing device of the rice processing system and the processing method provided by the invention;

FIG. 3 is a schematic cross-sectional view of the first dust removal box shown in FIG. 2;

FIG. 4 is a schematic top cross-sectional view of the first retaining box of FIG. 2;

FIG. 5 is a schematic top view of the turntable shown in FIG. 4;

FIG. 6 is a schematic top sectional view of the first container shown in FIG. 2;

FIG. 7 is a schematic structural view of an impurity removing device of the rice processing system and the processing method provided by the invention;

FIG. 8 is an enlarged view of the Ac portion shown in FIG. 7;

FIG. 9 is a cross-sectional structural view of the first connector shown in FIG. 7;

FIG. 10 is a schematic top view of the first connecting frame shown in FIG. 7;

FIG. 11 is a cross-sectional view schematically illustrating the fourth casing shown in FIG. 7;

FIG. 12 is a schematic view of a drying apparatus of the rice processing system and method of the present invention;

FIG. 13 is a schematic top view of the first storage compartment of FIG. 12;

fig. 14 is a schematic structural view of the first idler shown in fig. 12;

FIG. 15 is a schematic top view of the second baffle plate shown in FIG. 12;

FIG. 16 is a schematic structural view of a rice milling device of the rice processing system and method of the present invention;

FIG. 17 is a cross-sectional structural view of the intake member shown in FIG. 16;

fig. 18 is a schematic sectional top view of the process cartridge shown in fig. 17;

fig. 19 is a cross-sectional view of the second collection member of fig. 17.

Reference numbers in the figures: a, a first processing box, a first fixed box, a first motor, a first rotating disc, a first rotating part, a first pulling rod, a first sliding plate, a first dust suction head, a first hose, a, first dust removal box, a, first suction pump, a, first rotating disc, a, first connecting plate, a, first air inlet pipe, a, first rotating shaft, a, first placing plate, a, adhesive paper, a, first magnet block, a, first box body, a, first driving motor, a, first screw rod, a, first threaded plate, a, first rotating shaft, a, first spray head, a, second suction pump, a, first connecting pipe, a, second hose, a, first collecting tank, a, first screening plate, a, second connecting plate, a, first compression spring, a, first stop block, a, pulling assembly, a, a first blanking pipe, a second blanking pipe, b, a second processing box, b, a first box body, b, a second rotating shaft, b, a first roller, b, a first sliding groove, b, a first fixing plate, b, a first heating nozzle, b, a worm wheel, b, a second motor, b, a worm, b, a first heating box, b, an electric heating wire, b, a third suction pump, b, a third hose, b, a second fixing plate, b, a first blanking box, b, a first blanking port, b, a second box body, b, a third motor, b, a first stirring shaft, b, a first baffle, b, a fourth suction pump, b, a first exhaust assembly, b, a second connecting pipe, b, a second driving motor, b, a first storage box, b, a second blanking port, b, a first carrier roller, b, a first adjusting plate, b, a first sliding block, b, a second pulling rod, b, a first transmission belt, b33, a second air inlet pipe, b33, a second adjusting plate, b33, a second baffle, b33, a first groove, b33, a second pulling component, b33, a third connecting pipe, c33, a third processing box, c33, a first electric telescopic rod, c33, a first connecting frame, c33, a second sliding plate, c33, a second dust suction head, c33, a second electric telescopic rod, c33, a second dust removing box, c33, a fifth suction pump, c33, a fourth hose, c33, a heating wire component, c33, a fourth connecting pipe, c33, a first feeding pipe, c33, a first collecting piece, c33, a second box, c33, a fourth motor, c33, a first extrusion rotary disc, c33, a third sliding plate, c33, a sliding ball, c33, a second sliding groove, c33, a second sliding spring, a first buffering spring, a first sliding block 72, a first sliding block 33, a first sliding block 72, a first sliding block 33, a second sliding block, a first sliding block, a second sliding block, a sliding block 72, a sliding block, a first sliding block 72, a sliding block, a second sliding block 72, a sliding block, A second extrusion spring, c, a third box body, c, a fifth motor, c, a first main gear, c, a third rotating shaft, c, a second rotating disk, c, a second rotating part, c, a third pulling rod, c, a first driven gear, c, a fourth box body, c, a sixth suction pump, c, a first blowing component, c, a third baffle, c, a third air inlet pipe, c, a first base, c, a conveying mechanism, c, a fourth baffle, d, a fourth processing box, d, a feeding component, d, a second collecting component, d, a sixth motor, d, a fourth rotating shaft, d, a first screening component, d, a second screening component, d, a processing box, d, a third driving motor, d, a second main gear, d, a straight toothed plate, d, a fourth sliding plate, d, a fifth screening plate, d, a third dust suction head, d, a seventh suction pump, d, a fifth hose, d, a fifth sliding plate, d19, a dust sticking plate, d20, a third extrusion spring, d21, a second feeding pipe, d22, a third fixing plate, d23, a rice milling device, d24, a third feed opening, d25, a bottom plate, d26, a seventh motor, d27, a fifth rotating shaft, d28, a screening funnel, d29, a second base, d30, a third collecting piece, d31, an eighth suction pump, d32, a dust pumping pipe, d33 and a fifth connecting pipe.

Detailed Description

The invention is further described with reference to the following figures and embodiments.

Please refer to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, fig. 18 and fig. 19 in combination, wherein fig. 1 is a schematic structural diagram of a rice processing system and a rice processing method according to a preferred embodiment of the present invention; FIG. 2 is a schematic structural diagram of a dust removing device of the rice processing system and the processing method provided by the invention; FIG. 3 is a schematic cross-sectional view of the first dust removal box shown in FIG. 2; FIG. 4 is a schematic top cross-sectional view of the first retaining box of FIG. 2; FIG. 5 is a schematic top view of the turntable shown in FIG. 4; FIG. 6 is a schematic top sectional view of the first container shown in FIG. 2; FIG. 7 is a schematic structural view of an impurity removing device of the rice processing system and the processing method provided by the invention; FIG. 8 is an enlarged view of the Ac portion shown in FIG. 7; FIG. 9 is a cross-sectional structural view of the first connector shown in FIG. 7; FIG. 10 is a schematic top view of the first connecting frame shown in FIG. 7; FIG. 11 is a cross-sectional view schematically illustrating the fourth casing shown in FIG. 7; FIG. 12 is a schematic view of a drying apparatus of the rice processing system and method of the present invention; FIG. 13 is a schematic top view of the first storage compartment of FIG. 12; fig. 14 is a schematic structural view of the first idler shown in fig. 12;

FIG. 15 is a schematic top view of the second baffle plate shown in FIG. 12; FIG. 16 is a schematic structural view of a rice milling device of the rice processing system and method of the present invention; FIG. 17 is a cross-sectional structural view of the intake member shown in FIG. 16; fig. 18 is a schematic sectional top view of the process cartridge shown in fig. 17; fig. 19 is a cross-sectional view of the second collection member of fig. 17. The rice processing system includes: the device comprises a dust removal process, an impurity removal process, a drying process, a rice milling process, a color selection process, a polishing process and a packaging process, wherein the output end of the dust removal process is connected with the input end of the impurity removal process, the output end of the impurity removal process is connected with the input end of the drying process, the output end of the drying process is connected with the input end of the rice milling process, the output end of the rice milling process is connected with the input end of the color selection process, the output end of the color selection process is connected with the input end of the polishing process, and the output end of the polishing process is connected with the input end of the packaging process;

the dedusting process and the impurity removal process play roles in removing impurities and ash from the paddy, so that the damage of processing equipment caused by the fact that part of large-particle impurities and dust enter the processing equipment during processing is avoided;

through the arranged drying procedure, the rice can be dried, and the rice is prevented from being affected with damp in the storage process, so that the subsequent processing is further influenced;

the rice milling process is used for processing the rice to obtain rice;

this system can carry out a lot of screening to impurity and dust that contain in the corn, not only can improve the effect of screening impurity and dust, and then has improved the quality of rice, and further be worth using widely.

A rice processing method comprises the rice processing system, wherein the rice processing system needs to use a rice processing method during processing, and the rice processing method comprises the following steps:

s1, dust removal process: firstly, putting a certain amount of paddy into a dust removal device for screening, and then removing dust in a paddy pile;

s2, impurity removal process: putting the rice obtained in the step S1 into an impurity removal device for removing impurities, and removing stones and empty shells contained in the rice;

s3, a drying process: putting the rice obtained in the step S2 into a drying device for drying, and drying the partially wet rice in the rice;

s4, a rice milling process: putting the dried rice in the step S3 into a rice milling device for whitening treatment, and removing cortex and embryo;

s5, color selection: after the rice milling in the step S4 is finished, the rice enters a color sorter to remove the heterochromatic grains in the rice grains;

s6, polishing: putting the rice from which the abnormal grains are removed in the step S5 into a polishing machine for polishing;

s7, packaging: weighing and bagging according to the requirement of rice package weighing;

after the rice is processed, the obtained rice is subjected to color selection to remove bad rice (abnormal color), then the rice is polished to improve the color of the rice and facilitate sale, and then a packaging machine is used for bagging the processed rice.

The time for removing the impurities in the S2 is 30 minutes.

The drying time in S3 was 15 minutes.

The dust removing device used in S1 comprises: the first processing box a 1;

a first fixed box a2, both sides of the first fixed box a2 are fixed to both sides inside the first processing box a1, one side inside the first fixed box a2 is provided with a first motor a3, one end of an output shaft of the first motor a3 is fixedly connected with a first rotating disc a4, the first rotating disc 4 is rotatably connected with a first rotating member a5, the first rotating member a5 is fixedly connected with a first pulling rod a6, a first sliding plate a7 is slidably connected between both sides inside the first fixed box a2, one end of the first pulling rod a6 is movably connected to the first sliding plate a7, the bottom of the first sliding plate a7 is provided with a first dust suction head a8, the bottom of the first dust suction head a8 penetrates through the first fixed box a2 and extends to the outside of the first fixed box a2, one side of the first dust suction head 8 is communicated with a first hose a5, and one side of the first processing box a10 a1 is connected with a first dust collection box 57324, a first suction pump a11 is arranged on one side inside the first dust removal box a10, one end of the first hose a9 sequentially penetrates through the first processing box a1 and the first dust removal box a10 and extends into the first dust removal box a10, one end of the first hose a9 extending into the first dust removal box a10 is communicated with the inside of the first suction pump a11, and first rotating disks a12 are rotatably connected to two sides of the front face of the first fixed box a 2;

the first motor a3 is connected with an external power supply and a control switch;

the first motor a3 is a forward and reverse rotation motor, so that reciprocating motion of the first dust suction head a8 is realized, dust in the first processing box a1 is sucked in a large area, and the dust removal efficiency is improved;

the suction force of the first dust suction head a8 is small, so that the rice cannot be sucked, and only the dust in the rice can be sucked;

the first suction pump a11 is connected with an external power supply and a control switch, and the arranged first suction pump a11 can suck dust in the rice through the communicated first dust suction head a8, so that the dust removal effect is achieved;

the first hose a9 can be stretched to satisfy the reciprocating motion of the first dust suction head a 8;

the first rotating disc a12 is arranged to control the falling speed of the rice and make the rice fall dispersedly in the falling process, so that the rice is prevented from falling, and the dust in the rice is fully absorbed;

the first dust removal box a10 is provided with a box door, so that the adhesive paper a17 can be conveniently replaced, and when the adhesive paper a17 is replaced, the first magnet block a18 is pulled to separate the adhesive paper a from the first placing plate a16, so that the adhesive paper a17 can be taken down;

the first placing plate a16 is provided with iron sheets, and the adhesive paper a17 is fixed through the magnetic adsorption between the first magnet block a18 and the iron sheets;

the top of the first processing box a1 is communicated with a feeding funnel, and a fixed amount of rice is put into the first processing box a 1.

A first connection plate a13 is fixedly connected between two sides inside the first dust removal box a10, the bottom of the first suction pump a11 is communicated with a first air inlet pipe a14, the bottom end of the first air inlet pipe a14 penetrates through the first connection plate a13 and extends to the bottom of the first connection plate a13, a first rotating shaft 15 is rotatably connected between two sides inside the first dust removal box a10, a first placing plate a16 is fixedly connected to the first rotating shaft a15, two pieces of adhesive paper a17 are arranged on the first placing plate a16, two pieces of first magnet block a18 are arranged on the adhesive paper a17, and one side of the first magnet block a18 is in contact with the first placing plate a 16;

the dust removing effect is achieved by the blowing rotation of the first placing plate a16, so that the adhesive paper a17 can rotate to adsorb and adhere dust;

the first air inlet pipe a14 is communicated with a spray head.

A first box body a19 is fixedly connected between two sides inside the first processing box a1, a first driving motor a20 is arranged on one side inside 19, a first lead screw a21 is fixedly connected to an output shaft of the first driving motor a20, and one end of a first lead screw a21 is rotatably connected to one side inside the first box body a 19;

the first driving motor a20 is connected with an external power supply and a control switch;

the first driving motor a20 is a forward and reverse rotation driving motor, and realizes the reciprocating motion of the first nozzle a24, thereby blowing the falling rice to achieve the dispersion effect.

The outer surface of the first lead screw a21 is in threaded connection with a first thread plate a22, the top of the first thread plate a22 penetrates through the first box body a19 and extends to the outside of the first box body a19, a first groove body a23 is formed in the first thread plate a22, a first spray head a24 is arranged at the top of the first thread plate a22, a second suction pump a25 is arranged on one side of the inside of the first groove body a23, a first connecting pipe a26 is communicated with one side of the second suction pump a25, the top end of the first connecting pipe a26 penetrates through the first groove body a23 and extends to the outside of the first groove body a23, and one end of the first connecting pipe a26 extending to the outside of the first groove body a23 is communicated with the inside of the first spray head a 24;

the second suction pump a25 is connected with an external power supply and a control switch;

the second suction pump a25 of setting realizes blowing the rice of first processing case a1, wherein blows the rice, and the dust in the rice of being convenient for is separated with the rice to make things convenient for first suction head a8 to the absorption of dust.

One side of the second suction pump a25 is communicated with a second hose a27, one end of the second hose a27 sequentially penetrates through the first groove body a23 and the first processing box a1 and extends to the outside of the first processing box a1, and a first collecting tank a28 is arranged between two sides of the inside of the first processing box a 1;

the second hose a27 can be stretched to satisfy the reciprocating motion of the first nozzle a 24;

a first collecting groove a28 is provided for collecting the dedusted rice.

First processing case a1 is inside between the both sides from last to respectively sliding connection have first screening board a29 and second screening board a30 down, the bottom fixedly connected with second connecting plate a31 of first screening board a29, the bottom of second connecting plate a31 is fixed in on the second screening board a30, the bottom of second screening board a30 is provided with first compression spring a32 through the fixed block, the equal fixedly connected with first dog a33 in the inside both sides of first processing case a1, the bottom mounting of first compression spring a32 is in on the first dog a 33.

The bottom of the second screening plate a30 is fixedly connected with a pulling assembly a 34;

the pulling assembly a34 comprises a long rod and a pull ring, and the long rod drives the first sieving plate a29 and the second sieving plate a30 to slide by pulling the pull ring;

through the arranged first compression spring a32, the first screening plate a29 and the second screening plate a30 can be pushed to perform rebound vibration through rebound, so that the blocked impurities can be conveniently ejected;

the ratio of the pore diameters of the first screening plate a29 to the second screening plate a30 is 1:0.6, so that different impurities can be conveniently filtered and removed, and the quality of the rice is improved.

A first blanking pipe a35 and a second blanking pipe a36 are arranged on one side inside the first processing box a1, one end of the first blanking pipe a35 is in contact with the first screening plate a29, and one end of the second blanking pipe a36 is in contact with the second screening plate a 30;

the first blanking pipe a35 and the second blanking pipe a36 are communicated with the first processing box a1, so that filtered impurities can be conveniently discharged.

The impurity removing device used in S2 comprises: a third processing box c 1;

a first electric telescopic rod c2, wherein the top ends of the two first electric telescopic rods c2 are fixed at one side inside the third processing box c1, a first connecting frame c3 is fixedly connected between the bottom ends of the two first electric telescopic rods c2, a second sliding plate c4 is slidably connected between two sides inside the first connecting frame c3, a second dust suction head c5 is arranged at the bottom of the second sliding plate c4, a second electric telescopic rod c6 is arranged at one side inside the first connecting frame c3, one end of the second electric telescopic rod c6 is fixed on the second sliding plate c4, a second dust removal box c7 is fixedly connected to one side of the third processing box c1, a fifth suction pump c8 is arranged at one side inside the second dust removal box c7, a fourth hose c9 is communicated with the top of the fifth suction pump c8, and one end of the fourth hose c9 sequentially penetrates through the second dust removal box c7 and the third processing box c1 and extends to the third processing box 1 c1, one end of the fourth hose c9 extending to the inside of the third processing tank c1 and the inside of the second dust suction head c 5;

the first electric telescopic rod c2 is connected with an external power supply and a control switch;

the first electric telescopic rod c2 is convenient for adjusting the height of the second dust collection head c5, so that the second dust collection head can be in contact with the third screening plate c23, and then impurities blocked in the third screening plate c23 are absorbed, so that the impurity removal effect is achieved;

the third screening plate c23 does not need to be disassembled manually for cleaning, so that time and labor are saved;

the second electric telescopic rod c6 is connected with an external power supply and a control switch, and the second dust suction head c5 can be driven to reciprocate under the action of the second electric telescopic rod c6, so that impurities in the third processing box c1 can be sucked in a large area;

the length of the fourth hose c9 can be increased or decreased according to the use requirement;

and can be stretched to meet the reciprocating motion of the second dust suction head c 5;

both sides of the top of the third processing box c1 are communicated with discharging hoppers, so that quantitative rice can be conveniently put into the third processing box c1 for processing;

the fifth suction pump c8 is connected with an external power supply and a control switch;

the fifth suction pump c8 plays a role in sucking impurities in the third processing box c1, so that the impurity removing effect is achieved.

A fourth connecting pipe c11 is communicated with the other side of the fifth suction pump c8, one end of the fourth connecting pipe c11 sequentially penetrates through the second dust removing box c7 and the third processing box c1 and extends into the third processing box c1, a first feeding pipe c12 is communicated with the bottom of the fifth suction pump c8, a first collecting piece c13 is fixedly connected to one side of the interior of the second dust removing box c7, and the bottom end of the first feeding pipe c12 is communicated with the interior of the first collecting piece c 13;

the first collecting piece c13 can collect impurities in the rice in a centralized way, and the screws on the first collecting piece are periodically disassembled, and the cover plate of the first collecting piece is disassembled, so that the inside of the first collecting piece c13 can be conveniently cleaned;

the fourth connection pipe c11 can suck impurities on the fourth sieving plate c 24.

A second box body c14 is fixedly connected to the top of the third processing box c1, a fourth motor c15 is arranged on one side inside the second box body c14, one end of an output shaft of the fourth motor c15 is fixedly connected with a first extrusion rotating disc c16, a third sliding plate c17 is slidably connected between two sides inside the second box body c14, and a sliding ball c18 is fixedly connected to the third sliding plate c 17;

the fourth motor c15 is connected with an external power supply and a control switch;

the fourth motor c15 is arranged to realize that the third screening plate c23 performs vibration screening on the rice in the third processing box c1, screens out impurities in the rice and removes the impurities;

the bottom of the first pressing turntable c16 comes into contact with the top of the third sliding plate c17, and the top of the third sliding plate c17 is provided with a rubber pad, which has a buffering effect.

Two second sliding grooves c19 are fixedly connected to one side inside the second box c14, the outer surface of the sliding ball c18 is slidably connected to the inside of the second sliding groove c19, a second sliding block c20 is fixedly connected to the bottom of the sliding ball c18, two sides of the second sliding block c20 are slidably connected to two sides inside the second sliding groove c19, a first buffer spring c21 is arranged at the bottom of the second sliding block c20, and the bottom end of the first buffer spring c21 is arranged at one side inside the second sliding groove c 19;

the first buffer spring c21 is compressed and rebounded to make the third sieving plate c23 vibrate and sieve up and down, so that impurities in the rice can be removed conveniently.

A first squeezing plate c22 is fixedly connected to the bottom of the third sliding plate c17, the bottom of the first squeezing plate c22 sequentially penetrates through the second box body c14 and the third processing box c1 and extends into the third processing box c1, a third screening plate c23 is slidably connected between two sides of the inside of the third processing box c1, and the bottom of the first squeezing plate c22 is fixed to the third screening plate c 23.

Two fourth screening plates c24 are connected to two sides of the inside of the third processing box c1 in a sliding manner through sliders, a first connecting piece c25 is arranged on the fourth screening plate c24, two third sliding blocks c26 are connected between two sides of the inside of the first connecting piece c25 in a sliding manner, one side of a fourth screening plate c24 penetrates through the first connecting piece c25 and extends into the first connecting piece c25, one side of the fourth screening plate c24 extending into the inside of the first connecting piece c25 is fixed to the third sliding block c26, and a second extrusion spring c27 is arranged on one side, opposite to the two third sliding blocks c 26;

the pore diameters of the third screening plate c23 and the fourth screening plate c24 are smaller than the volume of the rice;

the ratio of the pore diameters of the third screening plate c23 to the pore diameters of the fourth screening plate c24 is 1:0.8, so that impurities with different volumes can be screened conveniently;

the first connecting piece c25 is arranged, so that the fourth screening plate c24 can swing left and right and up and down, and the effect of screening impurities is achieved;

the second pressing spring c27 is provided so that the length of the fourth sifting plate c24 can be changed to satisfy the up-and-down sliding.

A third box c28 is fixedly connected to one side of the third processing box c1, a fifth motor c29 is arranged at one side inside the third box c28, one end of an output shaft of the fifth motor c29 is fixedly connected with a first main gear c30, a third rotating shaft c31 is rotatably connected between two sides inside the third processing box c1, two second rotating discs c32 are fixedly connected to the third rotating shaft c31, a second rotating disc c33 is rotatably connected to the second rotating disc 32, a third pulling rod c34 is fixedly connected to the second rotating disc c33, and the top end of the third pulling rod c34 is movably connected to the fourth sieving plate c 24;

the fifth motor c29 is connected with an external power supply and a control switch;

the fifth motor c29 is a forward and reverse rotation motor, and realizes the up-and-down swing of the fourth screening plate c24, so that the impurities in the rice are screened.

One end of the third rotating shaft c31 sequentially penetrates through the third processing box c1 and the third box c28 and extends into the third box c28, one end of the third rotating shaft c31 extending into the third box c28 is fixedly connected with a first slave gear c35, and the outer surface of the first slave gear c35 is meshed with the outer surface of the first master gear c 30.

A fourth tank c36 is fixedly connected to one side inside the third processing tank c1, a sixth suction pump c37 is arranged on one side inside the fourth tank c36, one side of the sixth suction pump c37 is communicated with a first blowing assembly c38, the top of the first blowing assembly c38 penetrates through the fourth tank c36 and extends to the outside of the fourth tank c36, two heating wire assemblies c10 are arranged on one side inside the fourth tank c36, a third baffle c39 is fixedly connected between two sides inside the fourth tank c36, one side of the sixth suction pump c37 is communicated with a third air inlet pipe c40, and one end of the third air inlet pipe c40 penetrates through the third baffle c39 and extends to one side of the third baffle c 39;

the sixth suction pump c37 is connected with an external power supply and a control switch;

the heater wire assembly c10 adopts the prior art, realizes the effect of heating the air in the fourth box to dry the rice that falls.

The bottom of the third processing box c1 is fixedly connected with a first base c41, the first base c41 is provided with a conveying mechanism c42, and one side inside the third processing box c1 is fixedly connected with a fourth baffle c 43;

the conveying mechanism c42 adopts the prior art, and only needs to realize the conveying effect of the falling rice;

conveying mechanism c42 includes two bearing rollers, motor and conveyer belt, and the motor starts to drive two bearing rollers and rotates to realize the transmission of conveyer belt, carry the rice of whereabouts.

The drying device for use in S3 includes: the second processing box b 1;

a first box b2, wherein the bottom of the first box b2 is fixed to the top of the second processing box b1, a second rotating shaft b3 is rotatably connected between two sides of the inside of the first box b2, a first roller b4 is fixedly connected to the outer surface of the second rotating shaft b3, a first sliding groove b5 is formed in the first roller b4, a first fixing plate b6 is slidably connected to the inside of the first sliding groove b5, the bottom of the first fixing plate b6 sequentially penetrates through the first box b2 and the second processing box b1 and extends to the inside of the second processing box b1, a first heating nozzle b7 is arranged on the side of the first fixing plate b6 extending to the inside of the second processing box b1, one end of the second rotating shaft b3 penetrates through the first box b2 and extends to the outside of the first box b2, and a worm gear 8 b3 is fixedly connected to the outside of the first rotating shaft b2, a second motor b9 is arranged on one side of the second processing box b1, one end of an output shaft of the second motor b9 is fixedly connected with a worm b10, and the outer surface of the worm b10 is in transmission connection with the outer surface of the worm wheel b 8;

the first sliding groove b5 is matched with the first fixed plate b 6;

the first fixed plate b6 is slidably connected to the first box body b2 and the second processing box b 1;

the second motor b9 is a forward and backward rotation motor, and the first heating nozzle b7 on the fixing plate can reciprocate, so that the rice in the second processing box b1 can be heated and dried in a large area, and the heating and drying efficiency is improved;

the second motor b9 is connected with an external power supply and a control switch;

the worm wheel b8 is matched with the worm b 10.

A first heating box b11 is fixedly connected to one side of the second processing box b1, an electric heating wire b12 is arranged on one side of the interior of the first heating box b11, a third suction pump b13 is arranged on one side of the second processing box b1 and on the top of the first heating box b11, a third hose b14 is communicated with the top of the third suction pump b13, one end of a third hose b14 penetrates through the second processing box b1 and extends into the interior of the second processing box b1, one end of the third hose b14 extending into the interior of the second processing box b1 is communicated with the interior of the first heating spray head b7, a third connecting pipe b38 is communicated with the other side of the third suction pump b13, and the bottom end of the third connecting pipe b38 is communicated with the interior of the first heating box b 11;

the electric heating wire b12 adopts the prior art, and only the effect of heating the air in the first heating box b11 is needed;

the electric heating wire b12 is connected with an external power supply and a control switch;

the third suction pump b13 is connected with an external power supply and a control switch;

the third suction pump b13 is arranged to suck the heat generated in the first heating box b11, so that the ejection release is carried out in the first heating nozzle b 7;

the third hose b14 has a certain stretchability, which can satisfy the reciprocating motion of the first heating nozzle b 7;

the third hose b14 has high temperature resistance.

Fixedly connected with second fixed plate b15 between the inside both sides of second processing case b1, one side fixedly connected with first workbin b16 at second fixed plate b15 top, the bottom intercommunication of first workbin b16 has first feed opening b17, the bottom of first feed opening b17 is run through second fixed plate b15 and is extended to the bottom of second fixed plate b 15.

A second box b18 is fixedly connected to the top of the second fixing plate b15, a third motor b19 is arranged on one side of the inside of the second box b18, one end of an output shaft of the third motor b19 is fixedly connected with a first stirring shaft b20, and the top end of the first stirring shaft b20 penetrates through the second box b18 and extends to the outside of the second box b 18;

the third motor b19 is connected with an external power supply and a control switch;

the first stirring shaft b20 is fixedly connected with a stirring bracket for stirring and dispersing the input rice so as to be convenient for heating;

the left side of the second processing box b1 is communicated with a feeding funnel, so that a certain amount of rice can be conveniently put into the second processing box b1 for heating and drying.

A first baffle b21 is fixedly connected to one side inside the second processing box b1, one side of the bottom of the first baffle b21 contacts the top of the second box b18, a fourth suction pump b22 is arranged on the other side of the top of the second fixing plate b15, the top of the fourth suction pump b22 is communicated with a first exhaust module b23, one side of the fourth suction pump b22 is communicated with a second connecting pipe b24, and one end of the second connecting pipe b24 sequentially penetrates through the second processing box b1 and the first heating box b11 and extends into the first heating box b 11;

the fourth suction pump b22 is connected with an external power supply and a control switch;

the fourth suction pump b22 who sets up for can transport the heat to the top of first baffle b21 and spout, play and heat the drying to the rice of second processing case b1 bottom, can heat the drying once more to the rice in first deposit case b26 moreover, improve dry effect.

A second driving motor b25 is arranged on one side of the second box body b18, a first storage box b26 is fixedly connected between two sides of the interior of the second processing box b1 and at the bottom of the second fixing plate b15, and the top of the first storage box b26 is communicated with a second feed opening b 27;

the second driving motor b25 is connected with an external power supply and a control switch;

the second driving motor b25 is a forward and backward rotation driving motor, which realizes the reciprocating sliding of the first adjusting plate b29, and further controls the falling speed of the rice.

The top of the first storage box b26 is rotatably connected with two first idler rollers b28, the tops of the two first idler rollers b28 are rotatably connected to the second fixing plate b15, the top of the first idler roller b28 penetrates through the second fixing plate b15 and extends to the top of the second fixing plate b15, and one side of the first idler roller b28 extending to the top of the second fixing plate b15 is fixed on the output shaft of the second driving motor b 25.

A first adjusting plate b29 is slidably connected between the opposite sides of the first feed opening b17 and the second feed opening b27, four first sliding blocks b30 are fixedly connected to the bottom of the first adjusting plate b29, and the bottoms of the four first sliding blocks b30 are slidably connected to the first storage box b 26;

the first feed opening b17 and the second feed opening b27 are in the same vertical direction.

One side fixedly connected with second pulling pole b31 of first regulating plate b29, two the transmission is connected with first drive belt b32 between the surface of first bearing roller b28, the one end of second pulling pole b31 is fixed in on the first drive belt b 32.

One side of the fourth suction pump b22 is communicated with a second air inlet pipe b33, the bottom end of the second air inlet pipe b33 sequentially penetrates through a second fixing plate b15 and a first storage box b26 and extends into the first storage box b26, one side of the interior of the first storage box b26 is slidably connected with a second adjusting plate b34, two second baffle plates b35 are fixedly connected to the second adjusting plate b34, a first groove b36 is formed in the second baffle plate b35, one side of the second adjusting plate b34 is fixedly connected with a second pulling assembly b37, and one side of the second pulling assembly b37 sequentially penetrates through the first storage box b26 and a second processing box b1 and extends to the exterior of the second processing box b 1;

the second baffle b35 can drive the rice to move, so that the rice can be heated and dried conveniently;

the first groove b36 is provided to facilitate the collection of some rice from the falling rice for concentrated heating.

The rice milling device used in S4 includes: a fourth process tank d 1;

a feed block d2, the bottom of the feed block d2 being in communication with the top of the fourth process tank d 1;

a second collecting member d3, one side of two second collecting members d3 being fixed to both sides of the inside of the feed member d 2;

a sixth motor d4, the sixth motor d4 being disposed on the top of the feeding member d2, one end of an output shaft of the sixth motor d4 being fixedly connected with a fourth rotating shaft d5, a bottom end of the fourth rotating shaft d5 penetrating through the feeding member d2 and extending to the inside of the feeding member d2, an outer surface of the fourth rotating shaft d5 being fixedly connected with a first sifting member d6 and a second sifting member d7, respectively, from top to bottom, and an outer surface of the fourth rotating shaft d5 being rotatably connected with a process cartridge d8, one side of the inside of the process cartridge d8 being provided with a third driving motor d9, one end of the output shaft of the third driving motor d9 being fixedly connected with a second main gear d10, the outer surface of the second main gear d10 being engaged with two spur plates d11, one side of the two spur plates d11 being fixedly connected with a fourth sliding plate d12, two sides of the fourth sliding plate d12 being slidably connected with two sides of the inside of the process cartridge d8, a fifth screening plate d13 is fixedly connected to one side of the fourth sliding plate d12, one side of the fifth screening plate d13 penetrates through the process cartridge d8 and extends to the outside of the process cartridge d8, and a third dust suction head d14 is arranged on one side of the fifth screening plate d13 extending to the outside of the process cartridge d 8;

the sixth motor d4 is connected with an external power supply and a control switch;

through the arranged sixth motor d4, the first screening piece d6 and the second screening piece d7 rotate, so that the impurities in the material are screened;

the bottom parts of the first screening piece d6 and the second screening piece d7 are both provided with filter screens, and the ratio of the pore sizes of the filter screens is 1:0.6, so that paddy can fall down to screen different impurities;

the third driving motor d9 is connected with an external power supply and a control switch;

the third driving motor d9 is a forward and reverse rotation driving motor, so that the reciprocating motion of the third dust suction head d14 is realized, the dust in the feeding piece d2 is sucked in a large area, and the dust removal efficiency is improved;

the straight tooth plate d11 is matched with the second main gear d 10;

the arrangement of the fifth screening plate d13 controls the falling speed of the material, and prevents the material from falling too fast, so that dust in the material cannot be removed.

A seventh suction pump d15 is arranged on one side inside the second collecting piece d3, a fifth hose d16 is communicated with one side of the seventh suction pump d15, the top end of the fifth hose d16 penetrates through the second collecting piece d3 and extends to the outside of the second collecting piece d3, and one end, extending to the outside of the second collecting piece d3, of the fifth hose d16 is communicated with the inside of the third dust suction head d 14;

the fifth hose d16 has a certain tensile property, so as to satisfy the reciprocating motion of the third dust suction head d 14;

the seventh suction pump d15 is connected with an external power supply and a control switch;

the seventh suction pump d15 is provided to suck dust generated in the feed member d 2.

A gas collecting pipe d17 is communicated with the bottom of the seventh suction pump d15, two ends of the gas collecting pipe d17 are fixed to two sides inside the second collecting piece d3, a fifth sliding plate d18 is connected between the two sides inside the second collecting piece d3 in a sliding manner, a dust adhering plate d19 is arranged on the fifth sliding plate d18, two third extrusion springs d20 are arranged at the bottom of the fifth sliding plate d18, and the bottom ends of the two third extrusion springs d20 are both arranged on one side inside the second collecting piece d 3;

due to the arrangement of the third extrusion spring d20, after the seventh suction pump d15 is powered off, the fifth sliding plate d18 is pushed to slide upwards through the resilience of the third extrusion spring d20, so that the spray head on the gas collecting pipe d17 is blocked, a sealing effect is achieved, and partial gas is prevented from being sucked backwards;

glue is arranged on the dust sticking plate d19 to stick the entering dust, so that the dust is prevented from floating when an operator cleans the dust;

the bottom of the gas collecting pipe d17 is communicated with a plurality of spray heads for releasing the sucked dust.

And one side inside the feeding piece d2 is communicated with two second feeding pipes d 21.

Both sides of the processing box d8 are fixedly connected with third fixing plates d22, one sides of the two third fixing plates d22 are fixed on both sides of the interior of the feeding member d2, and the bottom of the third dust suction head d14 is slidably connected to the third fixing plate d 22.

A rice milling device d23 is arranged between two sides inside the fourth processing box d1, and a third feed opening d24 is formed in the bottom of the rice milling device d 23;

rice milling equipment d23 adopts prior art, realizes processing corn (material), obtains the rice.

A bottom plate d25 is fixedly connected to one side of the fourth processing box d1, a seventh motor d26 is arranged on the bottom plate d25, a fifth rotating shaft d27 is fixedly connected to one end of an output shaft of the seventh motor d26, one end of a fifth rotating shaft d27 penetrates through the fourth processing box d1 and extends into the fourth processing box d1, and one end of the fifth rotating shaft d27 extending into the fourth processing box d1 is rotatably connected to one side of the inside of the fourth processing box d 1;

the seventh motor d26 is connected with an external power supply and a control switch;

the processed rice is screened by the seventh motor d26 which makes the screening funnel d28 perform an inclined motion.

The outer surface of the fifth rotating shaft d27 is fixedly connected with a screening funnel d 28;

the screening funnel d28 is provided with a falling hole, which is larger than the falling hole and can not fall down, and the rice can fall down.

A second base d29 is fixedly connected to the bottom of the fourth processing box d1, a third collecting part d30 is fixedly connected to one side of the top of the second base d29, an eighth suction pump d31 is arranged at the top of the third collecting part d30, a dust exhaust pipe d32 is communicated with one side of the eighth suction pump d31, and one end of the dust exhaust pipe d32 penetrates through the fourth processing box d1 and extends into the fourth processing box d 1;

the third collecting part d30 is provided with a cover plate, so that dust absorbed in the third collecting part d30 can be cleaned conveniently;

the eighth suction pump d31 is connected with an external power supply and a control switch;

the eighth suction pump d31 is provided to remove dust from the falling rice.

The other side of the eighth suction pump d31 is communicated with a fifth connection pipe d33, and the bottom end of the fifth connection pipe d33 is communicated with the inside of the third collection member d 30.

The working principle of the rice processing system and the processing method provided by the invention is as follows:

s1, dust removal process: firstly, putting a certain amount of paddy into a dust removal device for screening, and then removing dust in a paddy pile;

when the dust removing device is used, the first step is as follows: when removing dust from rice, a fixed amount of rice is first put into a first processing box a1 through a communicating hopper, then, during the falling of the rice, it contacts the first rotary disk a12 of the first fixed box a2, so that a part of the rice is scattered in the first processing box a1, then the second suction pump a25 and the first driving motor a20 are started to drive the first lead screw a21 on the first driving motor a20 to rotate, so that the first thread plate a22 slides in the first box body a19, then under the activation of the second suction pump a25, the outside air is transported to the first spray head a24 on the first connecting pipe 26 through the connected second hose a27 to be sprayed out, a large amount of gas is blown upwards in the first processing box a1, so that falling paddy is blown and dispersed, accumulation of the paddy during falling is avoided, and dust contained in the paddy is blown;

the second step is that: the first motor a3 is started to rotate the first turntable a4 on the output shaft of the first motor a3, then the first rotating member a5 on the first turntable a4 pulls the first pulling rod a6, so that the first sliding plate a7 slides on the inner wall of the first fixed box a2, at this time, the first suction pump a11 is started, the first dust suction head a8 is arranged, the sucked dust is released inside the first dust box a10 under the transportation of the first hose a9 and the first air inlet pipe a14, and in the process of releasing the blowing, the first placing plate a16 is rotated, so that the adhesive paper on the first placing plate a16 is rotated to adhere the dust, and the dust removal effect is achieved;

the third step: in the process of dust removal, partial rice passes through a first screening plate a29 and a second screening plate a30, so that the rice is filtered and impurities are removed, and when impurities stay on the first screening plate a29 and the second screening plate a30, the impurities roll into a first discharging pipe a35 and a second discharging pipe a36 until the impurities enter a collecting box on one side of a first processing box a 1;

the fourth step: when the first screening plate a29 and the second screening plate a30 are blocked in the process of filtering impurities, the pulling assembly a34 pulls downwards to drive the first screening plate a29 and the second screening plate a30 to slide downwards on the inner wall of the first processing box a1, so that the first compression spring a32 is compressed, then the pulling assembly a34 is released, under the rebounding of the first compression spring a32, the first screening plate a29 and the second screening plate a30 are pushed to rebound and vibrate, so that the impurities blocked in the first screening plate a29 and the second screening plate a30 are vibrated, the influence on the screening and impurity removal of the rice is avoided, and then the rice falls into the first collecting tank a28 through the first screening plate a29 and the second screening plate a30 to be collected in a concentrated mode.

S2, impurity removal process: putting the rice obtained in the step S1 into an impurity removal device for removing impurities, and removing stones and empty shells contained in the rice;

when the dust removing device is used, the fourth motor c15 is started to rotate the first pressing turntable c16 on the output shaft of the fourth motor c15, so as to slide the third sliding plate c17 downwards, so as to drive the sliding ball c18 on the third sliding plate c17 to slide downwards in the second sliding groove c19, then the second sliding block c20 on the sliding ball c18 also slides downwards in the second sliding groove c19, so as to compressively deform the first buffer spring c21, further push the first pressing plate c22 on the third sliding plate c17 to slide downwards on the third screening plate c23, and through the arranged blanking funnel, a certain amount of rice is thrown onto the third screening plate c23 in the third processing box c1 to be screened in an oscillating manner, and through the continuous rotation of the fourth motor c15, so that the fourth screening plate c24 is oscillated up and down in the third processing box c1, further, the impurity in the rice is screened, and the rice is removed, and the impurity in a volume is larger than that the third screening plate c23, impurities smaller than the volume of the rice and the rice fall onto the fourth sieving plate c 24;

the second step is that: when the third sifting plate c23 is used for vibrating sifting, impurities with lighter volume in the rice are floated in the third processing box c1, then the fifth suction pump c8 is started, the floated impurities are sucked through the arranged second dust suction head c5, then the sucked impurities are transported into the first collecting piece c13 through the transportation of the fourth hose c9 and the first feeding pipe c12, and the first electric telescopic rod c2 is started, so that the second sliding plate c4 is pushed to slide in the first connecting frame c3 in a reciprocating way, and the second dust suction head c5 at the bottom of the second sliding plate c4 is driven to move in a reciprocating way;

the third step: when the third screening plate c23 is blocked by impurities, the fourth motor c15 is powered off, the first electric telescopic rod c2 is started to push the first connecting frame c3 to move downwards, so that the second dust suction head c5 is close to the third screening plate c23, the impurities blocked on the third screening plate c23 are sucked, the impurities on the third screening plate c23 are uniformly sucked and removed through reciprocating motion, then the blocked impurities are sucked and conveyed to the first collecting piece c13 to be collected in a centralized manner;

the fourth step: in order to improve the effect of removing impurities from the rice, the fifth motor c29 is activated by performing the sieving again, so that the first main gear c30 on the output shaft of the fifth motor c29 is rotated, the first slave gear c35 is driven to rotate through the meshed relationship, so that the third rotating shaft c31 rotates, the second rotating disc c32 is driven to rotate, the third pulling rod c34 is pushed upwards, so that the paddy shakes up and down on the fourth sieving plate c24, impurities in the paddy are filtered, the paddy falls to the fourth baffle plate c43, then discharged out of the third processing box c1, dropped on the conveying mechanism c42 for conveying, and after finishing sieving the rice, descended through the left side of the fourth sieving plate c24, then under the activation of a fifth suction pump c8, impurities on the fourth screening plate c24 are sucked and transported to the first collecting part c13 for centralized collection through the communicated fourth connecting pipe c 11;

the fifth step: the heater wire assembly c10 is activated to generate a large amount of heat, and the falling rice is dried by absorbing and releasing the large amount of heat to the third processing tank c1 under the first blowing assembly c38 connected by activating the sixth suction pump c 37.

S3, a drying process: putting the rice obtained in the step S2 into a drying device for drying, and drying the partially wet rice in the rice;

when a drying device is used, the first step: when the rice is dried, firstly, a certain amount of rice is put into the second processing box b1 through the arranged feeding hopper, then the third motor b19 is started, the first stirring shaft b20 on the output shaft of the third motor b19 rotates, the stirring bracket on the first stirring shaft b20 rotates, and the put-in rice is stirred, so that the effect of dispersing the rice is achieved;

the second step is that: secondly, the second motor b9 is started to enable the worm b10 on the output shaft of the second motor b9 to rotate, the worm wheel b8 is driven to rotate through the meshed relation, the second rotating shaft b3 on the worm wheel b8 is driven to rotate, the first roller b4 on the second rotating shaft b3 is driven to rotate, the first fixing plate b6 on the first sliding groove b5 is driven to slide, then the electric heating wire b12 is started to heat the air in the first heating box b11, then the generated heat is sucked and transported through the third connecting pipe b38 and the third soft pipe b14 which are communicated under the starting of the third suction pump b13, and then the generated heat is released and sprayed through the first heating nozzle b7, so that the rice in the second processing box b1 is heated and dried when the rice is stirred;

the third step: the fourth suction pump b22 is started, the absorbed heat is discharged from the first exhaust assembly b23 through the second connecting pipe b24 and the first exhaust assembly b23 which are communicated, then the rice at the bottom of the stirring is dried again through the air holes formed in the first baffle plate b21 and then enters the stirring area, and after the rice is stirred and dried, the rice falls into the first blanking box b16 through the first baffle plate b21 to be collected in a centralized manner;

the fourth step: the drying effect is improved by controlling the discharging speed of the first blanking box b16, drying is incomplete by controlling the opening size of the first blanking box b16, the blanking speed is controlled, the second driving motor b25 is started to drive the first carrier roller b28 to rotate, and then the two first carrier rollers b28 rotate through the connection of the first driving belt b32, so that the second pulling rod b31 on the first driving belt b32 pulls the first adjusting plate b29, the openings of the first blanking port b17 and the second blanking port b27 are opened, and the rice in the first blanking box b16 falls into the first storage box b 26;

the fifth step: when the unhusked rice falls into first case b26 of depositing, carry out reciprocal pulling through second pulling subassembly b37 for unhusked rice rocks on second baffle b35, then through the second intake pipe b33 of intercommunication on fourth suction pump b22, transports the heat that produces to first case b26 of depositing, carries out drying once more to the unhusked rice, and then deposits after drying.

S4, a rice milling process: putting the dried rice in the step S3 into a rice milling device for whitening treatment, and removing cortex and embryo;

when using rice milling device, first step: when feeding, a certain amount of materials are put into a first screening piece d6 in the feeding piece through a second feeding pipe d21, then a sixth motor d4 is started, a fourth rotating shaft d5 on an output shaft of the sixth motor d4 rotates, so that the first screening piece d6 and a second screening piece d7 are driven to rotate, the materials in the first screening piece d6 fall into the second screening piece d7 through rotation, then the materials fall into a rice milling device d23 through rotation screening of a second screening piece d7, and processing is carried out;

the second step is that: when the material falls from the first sifter d6 to the second sifter d7, the third driving motor d9 is activated to rotate the second main gear d10 on the output shaft of the third driving motor d9 to slide the fourth sliding plate d12 on the two spur plates d11 in the processing box d8, thereby sliding the fifth sifter d13 out of the processing box d8, blocking the dropped material, thereby controlling the speed of the fall, and when the fifth sifter d13 slides out, the third dust suction head d14 is driven to slide on the third fixed plate d22, then the seventh suction pump d15 is activated, so that the third dust suction head d14 sucks the dust present in the falling material, and then the sucked dust is transported 686 to the second collecting member d6 through the connected fifth hose d 7378, and then the third sliding plate d18 is pressed against the bottom portion 20 of the sliding plate 20 by blowing the fifth sliding plate d18 to deform the compression spring 36737, then the entering dust adheres to the dust-sticking plate d 19;

the third step: after the seventh suction pump d15 stops, the fifth sliding plate d18 is pushed to slide upwards by the resilience of the third extrusion spring d20, and then the spray head on the gas collecting pipe d17 is blocked, so that a small amount of dust is prevented from being sucked into the feeding piece d 2;

the fourth step: the material in second screening piece d7 falls into rice milling device d23, process in rice milling device d23, then discharge through third feed opening d24, make the material that has processed fall into screening funnel d28, start seventh motor d26 this moment, make the fifth axis of rotation d27 of seventh motor d26 output shaft rotate, and then drive screening funnel d28 and swing, thereby fall into the bottom of fourth processing case d1, at the in-process that falls into, through starting eighth sucking pump d31, absorb a small amount of dust in the whereabouts in-process, then enter into third collection piece d30 through the fifth connecting pipe d33 of intercommunication and collect.

S5, color selection: after the rice milling in the step S4 is finished, the rice enters a color sorter to remove the heterochromatic grains in the rice grains;

s6, polishing: putting the rice from which the abnormal grains are removed in the step S5 into a polishing machine for polishing;

s7, packaging: weighing and bagging according to the requirement of weighing the rice package.

Compared with the related art, the rice processing system and the processing method provided by the invention have the following beneficial effects:

the dust removing device blows off falling paddy through the second suction pump a25, so that dust in the paddy can be conveniently sucked through the first suction pump a11, the dust removing effect is further improved, the phenomenon that the paddy is accumulated when falling is avoided, the dust in the paddy can not be removed, meanwhile, the dust in the paddy is sucked through the first dust suction head a8, then the paddy is transported into the first dust removing box a10, a large amount of dust is adhered through the arranged adhesive paper a17, impurities in the paddy are removed through the arranged first screening plate a29 and the second screening plate a30, the first screening plate 29a and the second screening plate a30 are prevented from being blocked by the impurities, the first screening plate a29 and the second screening plate a30 are pushed to vibrate through the pulling of the pulling assembly 34a under the resilience of the first compression spring 32a, therefore, the blocked impurities are vibrated out, the first screening plate a29 and the second screening plate a30 do not need to be disassembled, and the use convenience is improved;

the impurity removing device can absorb impurities floating in the air in the vibrating screening process of the third screening plate c23 by the aid of the second dust suction head c5, and can absorb the impurities blocked in the third screening plate c23 by adjusting the height of the second dust suction head c5, so that the blocked impurities are removed without manual cleaning, time and labor are saved, the impurities on the fourth screening plate c24 are absorbed by the aid of the fourth connecting pipe c11 communicated with the fifth suction pump 8 and are conveyed to the first collecting piece c13 for centralized collection, the impurities on the third screening plate c23 and the fourth screening plate c24 are removed, speed and effect of screening rice are improved, the rice after impurity removal is conveyed finally, and practicability of the device is improved;

the drying device can extract heat in the first heating box b11 through the third suction pump b13 and the fourth suction pump b22, then dry rice for three times, further greatly improve the drying effect, and dry the rice in the first heating box b11 in a large area through the reciprocating motion through the first heating spray head b7, so that the drying efficiency is improved, and heat and dry the bottom of the rice during stirring through the first exhaust component b23, then dry the rice falling into the first storage box b26 again, further greatly improve the drying effect, and is worthy of large-scale popularization and use;

the rice milling device filters and sieves falling materials layer by layer through a first sieving piece d6 and a second sieving piece d7, controls the speed of the materials falling into the second sieving piece d7 in the first sieving piece d6 through a fifth sieving plate d13 to avoid the phenomenon that the rice milling device d23 is blocked due to large falling amount, sucks dust carried by the materials in the falling process through the suction of a third dust suction head d14 arranged on the fifth sieving plate d13 to achieve the dust removal effect, conveys the dust to the second collecting piece d3 to enable a fifth sliding plate d18 to slide in the blowing process, collects the entering dust adhered to a dust adhering plate d19 to avoid the cleaning process, generates the dust floating, enables a third extrusion spring d20 to rebound to push the fifth sliding plate d18 to slide upwards to seal a gas collecting pipe 17 when the blowing process is stopped, a small amount of dust is prevented from being sucked back into the feed d2, thereby improving the utility of the device.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (8)

1. A rice processing system, comprising:

the device comprises a dust removal process, an impurity removal process, a drying process, a rice milling process, a color sorting process, a polishing process and a packaging process, wherein the output end of the dust removal process is connected with the input end of the impurity removal process, the output end of the impurity removal process is connected with the input end of the drying process, the output end of the drying process is connected with the input end of the rice milling process, the output end of the rice milling process is connected with the input end of the color sorting process, the output end of the color sorting process is connected with the input end of the polishing process, and the output end of the polishing process is connected with the input end of the packaging process.

2. A rice processing method comprising the rice processing system as claimed in claim 1, wherein the rice processing system requires a rice processing method for processing, comprising the steps of:

s1, dust removal process: firstly, putting a certain amount of paddy into a dust removal device for screening, and then removing dust in a paddy pile;

s2, impurity removal process: putting the rice obtained in the step S1 into an impurity removal device for removing impurities, and removing stones and empty shells contained in the rice;

s3, a drying process: putting the rice obtained in the step S2 into a drying device for drying, and drying the partially wet rice in the rice;

s4, a rice milling process: putting the dried rice in the step S3 into a rice milling device for whitening treatment, and removing cortex and embryo;

s5, color selection: after the rice milling in the step S4 is finished, the rice enters a color sorter to remove the heterochromatic grains in the rice grains;

s6, polishing: putting the rice from which the abnormal grains are removed in the step S5 into a polishing machine for polishing;

s7, packaging: weighing and bagging according to the requirement of weighing the rice package.

3. The rice processing method according to claim 2, wherein the time for removing the impurities in S2 is 30 minutes.

4. The rice processing method as claimed in claim 2, wherein the drying time in S3 is 15 minutes.

5. The rice processing method as claimed in claim 2, wherein the dust removing means for S1 comprises:

a first processing box;

the first fixed box is fixedly arranged on two sides inside the first processing box, a first motor is arranged on one side inside the first fixed box, one end of an output shaft of the first motor is fixedly connected with a first rotating disc, the first rotating disc is rotatably connected with a first rotating part, a first pulling rod is fixedly connected onto the first rotating part, a first sliding plate is slidably connected between two sides inside the first fixed box, one end of the first pulling rod is movably connected onto the first sliding plate, a first dust suction head is arranged at the bottom of the first sliding plate, the bottom of the first dust suction head penetrates through the first fixed box and extends to the outside of the first fixed box, a first hose is communicated with one side of the first dust suction head, a first dust removal box is fixedly connected to one side of the first processing box, and a first suction pump is arranged on one side inside the first dust removal box, the one end of first hose runs through in proper order first processing case and first dust removal case extend to the inside of first dust removal case, first hose extend to the one end of first dust removal incasement portion with the inside intercommunication of first suction pump, the positive both sides of first fixed box are all rotated and are connected with first rotation disc.

The utility model discloses a dust removal incasement portion, including first dust removal incasement portion, first suction pump's bottom intercommunication has first intake pipe, the bottom of first intake pipe is run through first connecting plate extends to the bottom of first connecting plate, it is connected with first axis of rotation to rotate between the both sides of first dust removal incasement portion, fixedly connected with is first to place the board in the first axis of rotation, first place be provided with two on the board and paste paper, paste and be provided with two first magnet pieces on the paper, one side of first magnet piece contact in first place on the board.

The first box body is fixedly connected between two sides of the interior of the first processing box, a first driving motor is arranged on one side of the interior of the first box body, a first lead screw is fixedly connected to an output shaft of the first driving motor, and one end of the first lead screw is rotatably connected to one side of the interior of the first box body.

The utility model discloses a lead screw, including first lead screw, first box body, first cell body, first shower nozzle, first connecting pipe, first lead screw's surface threaded connection has first threading board, the top of first threading board is run through first box body extends to the outside of first box body, first cell body has been seted up on the first threading board, the top of first threading board is provided with first shower nozzle, the inside one side of first cell body is provided with the second and inhales the pump, one side intercommunication that the pump was inhaled to the second has first connecting pipe, the top of first connecting pipe is run through first cell body extends to the outside of first cell body, first connecting pipe extends to the outside one end of first cell body with the inside intercommunication of first shower nozzle.

One side intercommunication of second suction pump has the second hose, the one end of second hose runs through in proper order first cell body and first processing case and extend to the outside of first processing case, be provided with first collecting vat between the inside both sides of first processing case.

First screening board and second screening board of sliding connection respectively extremely down from last between the both sides of first processing incasement portion, the bottom fixedly connected with second connecting plate of first screening board, the bottom of second connecting plate is fixed in on the second screening board, the bottom of second screening board is provided with first compression spring through the fixed block, the first dog of the equal fixedly connected with in both sides of first processing incasement portion, first compression spring's bottom mounting is in on the first dog.

The bottom of the second screening plate is fixedly connected with a pulling assembly.

One side in the first processing box is provided with a first discharging pipe and a second discharging pipe, one end of the first discharging pipe is in contact with the first screening plate, and one end of the second discharging pipe is in contact with the second screening plate.

6. The rice processing method as claimed in claim 2, wherein the impurity removing means for S2 comprises: a third processing box;

first electric telescopic handle, two first electric telescopic handle's top all is fixed in one side of third processing incasement portion to fixedly connected with first carriage between two first electric telescopic handle's the bottom, sliding connection has the second sliding plate between the inside both sides of first carriage, the bottom of second sliding plate is provided with the second dust absorption head, the inside one side of first carriage is provided with second electric telescopic handle, second electric telescopic handle's one end is fixed in on the second sliding plate, one side fixedly connected with second dust removal case of third processing case, one side of second dust removal incasement portion is provided with the fifth suction pump, the top intercommunication of fifth suction pump has the fourth hose, the one end of fourth hose runs through in proper order second dust removal case and third processing case extend to the inside of third processing case, the fourth hose extend to the inside one end of third processing incasement portion with the inside of second dust absorption head.

The opposite side intercommunication of fifth suction pump has the fourth connecting pipe, the one end of fourth connecting pipe runs through in proper order second dust removal case and third processing case extend to the inside of third processing case, the bottom intercommunication of fifth suction pump has first inlet pipe, the first piece of collecting of one side fixedly connected with of second dust removal incasement portion, the bottom of first inlet pipe with the inside intercommunication of first collection piece.

The top of the third processing box is fixedly connected with a second box body, a fourth motor is arranged on one side inside the second box body, one end of an output shaft of the fourth motor is fixedly connected with a first extrusion turntable, a third sliding plate is connected between two sides inside the second box body in a sliding mode, and a sliding ball is fixedly connected onto the third sliding plate.

Two second sliding grooves of one side fixedly connected with of the inside of second box, the surface sliding connection of sliding ball in the inside of second sliding groove, the bottom fixedly connected with second sliding block of sliding ball, the both sides sliding connection of second sliding block in the inside both sides of second sliding groove, the bottom of second sliding block is provided with first buffer spring, first buffer spring's bottom set up in one side of second sliding groove inside.

The bottom of the third sliding plate is fixedly connected with a first extrusion plate, the bottom of the first extrusion plate sequentially penetrates through the second box body and the third processing box and extends to the inside of the third processing box, a third screening plate is connected between two sides of the inside of the third processing box in a sliding mode, and the bottom of the first extrusion plate is fixed on the third screening plate.

The inside both sides of third processing case all have two fourth screening boards through slider sliding connection, be provided with first connecting piece on the fourth screening board, sliding connection has two third sliding blocks between the inside both sides of first connecting piece, one side of fourth screening board is run through first connecting piece and is extended to the inside of first connecting piece, the fourth screening board extends to the inside one side of first connecting piece is fixed in on the third sliding block, two one side that the third sliding block is relative is provided with second extrusion spring.

One side fixedly connected with third box of third processing case, one side of the inside of third box is provided with the fifth motor, the first master gear of one end fixedly connected with of fifth motor output shaft, it is connected with the third axis of rotation to rotate between the both sides of the inside of third processing case, two second turntables of fixedly connected with in the third axis of rotation, it is connected with the second and rotates the piece to rotate on the second turntable, fixedly connected with third pulling rod on the second rotates the piece, the top swing joint of third pulling rod in on the fourth screening board.

One end of the third rotating shaft penetrates through the third processing box and the third box body in sequence and extends into the third box body, a first driven gear is fixedly connected to one end of the third rotating shaft extending into the third box body, and the outer surface of the first driven gear is meshed with the outer surface of the first main gear.

The inside one side fixedly connected with fourth box of third processing incasement portion, the inside one side of fourth box is provided with the sixth suction pump, one side intercommunication of sixth suction pump has the first subassembly of blowing, the top of the first subassembly of blowing is run through the fourth box extends to the outside of fourth box, the inside one side of fourth box is provided with two heater strip subassemblies, fixedly connected with third baffle between the inside both sides of fourth box, one side intercommunication of sixth suction pump has the third intake pipe, the one end of third intake pipe is run through the third baffle extends to one side of third baffle.

The bottom fixedly connected with first base of third processing case, be provided with conveying mechanism on the first base, one side fixedly connected with fourth baffle of third processing incasement portion.

7. The rice processing method as claimed in claim 2, wherein the drying means for S3 comprises:

a second processing box;

the bottom of the first box body is fixed at the top of the second processing box, a second rotating shaft is rotatably connected between two sides in the first box body, a first roller is fixedly connected to the outer surface of the second rotating shaft, a first sliding groove is formed in the first roller, a first fixing plate is slidably connected to the inside of the first sliding groove, the bottom of the first fixing plate sequentially penetrates through the first box body and the second processing box and extends to the inside of the second processing box, a first heating spray head is arranged on one side of the first fixing plate extending to the inside of the second processing box, one end of the second rotating shaft penetrates through the first box body and extends to the outside of the first box body, a worm wheel is fixedly connected to one end of the second rotating shaft extending to the outside of the first box body, and a second motor is arranged on one side of the second processing box, one end of the output shaft of the second motor is fixedly connected with a worm, and the outer surface of the worm is in transmission connection with the outer surface of the worm wheel.

The utility model discloses a heating device, including first heating cabinet, second processing case, first heating cabinet, first hose, second processing case, first heating cabinet, second hose, first heating cabinet, second hose, first heating cabinet, second heating cabinet, first.

Fixedly connected with second fixed plate between the inside both sides of second processing case, the first workbin of one side fixedly connected with at second fixed plate top, the bottom intercommunication of first workbin has first feed opening, the bottom of first feed opening runs through the second fixed plate extends to the bottom of second fixed plate.

The top fixedly connected with second box body of second fixed plate, the inside one side of second box body is provided with the third motor, the first (mixing) shaft of one end fixedly connected with of third motor output shaft, the top of first (mixing) shaft runs through the second box body and extends to the outside of second box body.

The first baffle of one side fixedly connected with of second processing incasement portion, one side of first baffle bottom contact in the top of second box body, the opposite side at second fixed plate top is provided with the fourth suction pump, the top intercommunication of fourth suction pump has first exhaust subassembly, one side intercommunication of fourth suction pump has the second connecting pipe, the one end of second connecting pipe runs through in proper order second processing case and first heating cabinet extend to the inside of first heating cabinet.

One side of second box body is provided with second driving motor, the first case of depositing of bottom fixedly connected with that just is located the second fixed plate between the inside both sides of second processing incasement portion, the first top intercommunication of depositing the case has the second feed opening.

The top of the first storage box is rotatably connected with two first carrier rollers, the tops of the two first carrier rollers are rotatably connected to the second fixing plate, the top of the first carrier roller penetrates through the second fixing plate and extends to the top of the second fixing plate, and one side, extending to the top of the second fixing plate, of the first carrier roller is fixed to the output shaft of the second driving motor.

Sliding connection has first regulating plate between the relative one side of first feed opening and second feed opening, four first sliding blocks of the bottom fixedly connected with of first regulating plate, four sliding connection in the bottom sliding connection of first sliding block on the first case of depositing.

One side fixedly connected with second pulling rod of first regulating plate, two the transmission is connected with first drive belt between the surface of first bearing roller, the one end of second pulling rod is fixed in on the first drive belt.

One side intercommunication of fourth suction pump has the second intake pipe, the bottom of second intake pipe runs through in proper order the second fixed plate with first deposit the case and extend to first inside of depositing the case, first one side sliding connection who deposits incasement portion has the second regulating plate, two second baffles of fixedly connected with on the second regulating plate, first recess has been seted up on the second baffle, one side fixedly connected with second pulling subassembly of second regulating plate, one side of second pulling subassembly runs through in proper order first deposit case and second processing case and extend to the outside of second processing case.

8. The rice processing method as claimed in claim 2, wherein the rice milling device for S4 comprises:

a fourth processing box;

the bottom of the feeding piece is communicated with the top of the fourth processing box;

one side of each of the two second collecting pieces is fixed on two sides of the interior of the feeding piece;

a sixth motor, the sixth motor is arranged at the top of the feeding part, one end of an output shaft of the sixth motor is fixedly connected with a fourth rotating shaft, the bottom end of the fourth rotating shaft penetrates through the feeding part and extends into the feeding part, the outer surface of the fourth rotating shaft is fixedly connected with a first screening part and a second screening part from top to bottom respectively, the outer surface of the fourth rotating shaft is rotatably connected with a processing box, one side of the inside of the processing box is provided with a third driving motor, one end of the output shaft of the third driving motor is fixedly connected with a second main gear, the outer surface of the second main gear is meshed with two straight tooth plates, one sides of the two straight tooth plates are fixedly connected with a fourth sliding plate, the two sides of the fourth sliding plate are slidably connected with the two sides of the inside of the processing box, and one side of the fourth sliding plate is fixedly connected with a fifth screening plate, one side of the fifth screening plate penetrates through the processing box and extends to the outside of the processing box, and the fifth screening plate extends to one side of the outside of the processing box and is provided with a third dust collection head.

The first dust suction head is arranged on the first dust suction head, the second dust suction head is arranged on the second dust suction head, a second suction pump is arranged on one side of the interior of the second collection part, a fifth hose is communicated with one side of the seventh suction pump, the top end of the fifth hose penetrates through the second collection part and extends to the exterior of the second collection part, and the fifth hose extends to one end of the exterior of the second collection part and is communicated with the interior of the third dust suction head.

The bottom of the seventh suction pump is communicated with a gas collecting pipe, two ends of the gas collecting pipe are fixed to two sides of the interior of the second collecting part, a fifth sliding plate is connected between two sides of the interior of the second collecting part in a sliding mode, a dust adhering plate is arranged on the fifth sliding plate, two third extrusion springs are arranged at the bottom of the fifth sliding plate, and the bottom ends of the two third extrusion springs are arranged on one side of the interior of the second collecting part.

And one side inside the feeding piece is communicated with two second feeding pipes.

The two sides of the processing box are fixedly connected with third fixing plates, one side of each third fixing plate is fixed to the two sides inside the feeding part, and the bottom of the third dust collection head is connected to the third fixing plates in a sliding mode.

And a rice milling device is arranged between two sides of the inner part of the fourth processing box, and a third feed opening is formed in the bottom of the rice milling device.

One side fixedly connected with bottom plate of fourth processing case, be provided with the seventh motor on the bottom plate, the one end fixedly connected with fifth axis of rotation of seventh motor output shaft, the one end of fifth axis of rotation runs through the fourth processing case and extends to the inside of fourth processing case, the fifth axis of rotation extend to the inside one end of fourth processing case rotate connect in the inside one side of fourth processing case.

And the outer surface of the fifth rotating shaft is fixedly connected with a screening piece.

The bottom fixedly connected with second base of fourth processing case, the piece is collected to one side fixedly connected with third at second base top, the top that the piece was collected to the third is provided with the eighth aspiration pump, one side intercommunication of eighth aspiration pump has the dust extraction pipe, the one end of dust extraction pipe runs through fourth processing case extends to the inside of fourth processing case.

The other side of the eighth suction pump is communicated with a fifth connecting pipe, and the bottom end of the fifth connecting pipe is communicated with the inside of the third collecting part.

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