CN110586272A - Rice processing equipment - Google Patents

Abstract

The invention provides rice processing equipment, which comprises a landing mounting frame, a grinding device, a suspension separation device and a circulating device, wherein the grinding device is fixedly mounted on the mounting frame and used for grinding rice into rice flour and discharging the rice flour to the suspension separation device, the suspension separation device is used for carrying out gas suspension separation on the rice flour and discharging rice flour powder to the outside for collection treatment, and rice flour particulate matters are discharged into the circulating device, the circulating device is used for receiving the rice flour particulate matters discharged by the suspension separation device and conveying the rice flour particulate matters into the grinding device for secondary grinding treatment, and the rice processing equipment is remarkable in that a mixture of the rice flour powder matters subjected to the primary grinding treatment and the rice flour particulate matters is subjected to suspension separation screening through gas suspension, so that the separated rice flour powder matters are directly discharged and collected, and the separated rice flour particulate matters are subjected to secondary grinding treatment in a circulating way, ensuring that the rice can be sufficiently ground.

Description

Rice processing equipment

Technical Field

The invention relates to the technical field of rice processing, in particular to rice processing equipment.

Background

The invention provides a coarse cereal flour mill which belongs to the continuous feeding type operation and is suitable for various coarse cereals to be processed on the spot in supermarkets, markets and shops, and has wide processing range, for example, rice, black rice, soybeans, red beans, mung beans, black beans, peanuts, lotus seeds, corns, broomcorn, barley, buckwheat, oats and the like The suspension screening internal circulation rice mill is used for circularly and secondarily grinding the particles.

Disclosure of Invention

In order to solve the defects of the prior art, the invention aims to provide the suspension screening internal circulation rice mill which has the advantages of ingenious structure, simple principle and convenient operation and use, can separate and screen rice flour powdery substances and rice flour particles, and can circularly grind the insufficiently ground rice flour particles for the second time.

In order to achieve the technical purpose, the technical scheme adopted by the invention is as follows.

The utility model provides a suspension screening inner loop rice milling machine, it is including the mounting bracket that falls to the ground, fixed mounting is the grinding device on the mounting bracket, suspension separator and circulating device, grinding device is used for grinding into rice ground rice and discharge to suspension separator, suspension separator is used for carrying out the gas suspension separation and make the powdered thing of rice discharge to the outside collection processing to the rice ground, make the rice ground particulate matter discharge to the circulating device in, circulating device is used for accepting the rice ground particulate matter that suspension separator discharged and carries out the secondary grinding processing in carrying out the grinding device.

As a further optimization or improvement of the present solution.

The grinding device comprises a columnar grinding tank which is arranged with openings at the upper end and the lower end and is vertical in the axial direction, a sealing bottom plate which is detachably connected and matched with the opening at the lower end of the grinding tank is arranged at the opening at the upper end, a conical sealing top cover which is detachably connected and matched with the opening at the upper end is arranged at the opening at the upper end, the opening size formed by the conical surface of the sealing top cover is gradually reduced from bottom to top, rice can be added into the grinding tank from the top of the sealing top cover, a conical lower grinding disc which can float up and down and is arranged with openings at the upper end and the lower end is coaxially arranged in the grinding tank, the opening size formed by the inner circular surface of the lower grinding disc is gradually increased from bottom to top along the vertical direction, the outer circular surface of the lower grinding disc is in sealing fit with the inner circular surface of the grinding tank, an inner cylinder, the inner cylinder body is inserted in the outer cylinder body and forms sliding guide fit along the axial direction of the crushing tank, a main shaft is coaxially arranged in the crushing tank, the top end of the main shaft extends to the top of the crushing tank, the bottom end of the main shaft movably penetrates through the sealing bottom plate to be rotatably connected and matched with the mounting frame, a conical upper grinding disc is coaxially and fixedly sleeved on the main shaft, the conicity of the upper grinding disc is equal to that of the lower grinding disc, the upper grinding disc is positioned above the lower grinding disc and movably sleeved in the lower grinding disc, the diameter of the upper grinding disc is smaller than that of the lower grinding disc, a gap L is reserved between the upper grinding disc and the lower grinding disc in an initial state and is equal to 0.2cm-0.4cm, a first triangular rib arranged along the generatrix direction of the lower grinding disc is arranged on the upper end face of the lower grinding disc, a plurality of first triangular ribs arranged along, the second ribs are provided with a plurality of ribs and are arranged in an array along the circumferential direction of the upper grinding disc, and the height of the protrusions of the first ribs and the second ribs is equal to 1/2L;

the top end of the upper grinding disc is coaxially and fixedly provided with a conical guide disc, the diameters of the guide disc and the upper grinding disc are equal, and the distance between conical surfaces of the guide disc and the upper grinding disc is gradually reduced from bottom to top along the vertical direction;

the sealing top cover is provided with an exhaust pipe communicated with the inner connection of the crushing tank, the output end of the exhaust pipe is sleeved with a sealing cap which is in threaded connection with the exhaust pipe, and the sealing cap is provided with a plurality of pores.

As a further optimization or improvement of the present solution.

The top of main shaft is provided with the crushing sword that is used for smashing the preliminary treatment to the rice, crushing sword cup joints the mounting disc one on the main shaft top including coaxial fixed, the fixed plate body that is provided with on the outer disc of mounting disc one and is used for carrying out high-speed striking breakage to the rice, the plate body is provided with four and arranges along a mounting disc place circumferencial direction array, the length direction of plate body is along radial arrangement of mounting disc one, width direction is on a parallel with the tangential direction of a mounting disc place circumferencial direction, the plate body is extended gradually along a radial outside extension of mounting disc, the distance between the inner wall of plate body and crushing jar is 1cm, crushing sword is provided with two and upper and lower plate body staggered arrangement from top to bottom.

As a further optimization or improvement of the present solution.

The grinding device also comprises an adjusting mechanism, a driving mechanism, a feeding mechanism and a discharge channel, wherein the adjusting mechanism is used for elastically supporting the lower grinding disc and changing the gap between the lower grinding disc and the upper grinding disc, the driving mechanism is used for driving the main shaft to rotate, the feeding mechanism is used for feeding rice into the grinding tank from top to bottom, and the discharge channel is communicated with an opening at the lower end of the inner cylinder body and guides the rice flour out of the suspension separation device.

As a further optimization or improvement of the present solution.

The adjusting mechanism is arranged between the sealing bottom plate and the lower grinding disc, the adjusting mechanism comprises sliding chutes fixedly arranged on the upper end face of the sealing bottom plate, the sliding chutes are positioned between the edges of the outer cylinder and the sealing bottom plate and are arranged along the tangential direction of the circumferential direction of the crushing tank, the sliding chutes are provided with two sliding blocks which are symmetrically arranged along the axial direction of the outer cylinder, the sliding chutes are internally provided with two sliding blocks which form sliding guide fit with the sliding chutes, the sliding blocks are arranged at intervals, the upper end face of each sliding block is provided with a supporting inclined face, the distance between the two supporting inclined faces which are symmetrically arranged is gradually increased from bottom to top along the vertical direction, the adjusting mechanism further comprises a supporting ring coaxially and movably sleeved outside the outer cylinder, convex lugs which are outwards convex are fixedly arranged on the outer circular face of the supporting ring, the convex lugs are provided with two convex lugs which are symmetrically arranged along the axial, the supporting ring is provided with a plurality of guide rods which are arranged upwards, the upper end face of the supporting ring is fixedly provided with the guide rods which are arranged upwards, the axial direction of each guide rod is parallel to the axial direction of the supporting ring, the guide rods are arranged in an array mode along the circumferential direction where the supporting ring is located, the lower grinding disc is sleeved on the guide rods and can slide up and down along the guide rods, a supporting spring is movably sleeved outside each guide rod, one end of each supporting spring is abutted against the supporting ring, the other end of each supporting spring is abutted against the lower grinding disc, and the elasticity of each supporting spring is always directed to the lower;

the adjusting mechanism still including rotating the lead screw of erectting on the spout, the axial direction of lead screw is on a parallel with the interval direction between two sliders of symmetrical arrangement, the lead screw includes forward thread section, reverse thread section and smooth section, one of them slider cup joints on the forward thread section of lead screw and both constitute the threaded connection cooperation, another slider cup joints on the reverse thread section of lead screw and both constitute the threaded connection cooperation, the smooth section activity of lead screw is passed and is smashed the jar and extend to the outside and this end coaxial fixation is provided with the hand wheel, two lead screws deviate from and are provided with the hold-in range subassembly that is used for connecting both between the hand wheel one end.

As a further optimization or improvement of the present solution.

The driving mechanism comprises a main motor fixedly installed on the installation frame, the axial direction of an output shaft of the main motor is parallel to the axial direction of the main shaft, a belt transmission assembly used for being connected with the main motor and the main shaft is arranged between the main motor and the bottom end of the main shaft, the belt transmission assembly comprises a main belt wheel coaxially and fixedly sleeved on an output shaft of the main motor, a driven belt wheel coaxially and fixedly sleeved on the bottom end of the main shaft, and a belt arranged between the driving belt wheel and the driven belt wheel and used for being connected with the.

As a further optimization or improvement of the present solution.

Feed mechanism including setting up in the funnel of seal top cap top, be provided with the vertical stereoplasm transition pipeline that supports the funnel between funnel and the seal bottom, transition pipeline one end is connected the switch-on with the lower extreme opening of funnel, the other end is connected the switch-on with seal top cap, transition pipeline is provided with horizontal gate and gate along its direction of height's middle part position and runs through the cross section of transition pipeline, is provided with in the gate rather than constituting the activity plug and connect complex flashboard, in the flashboard inserted the gate, the disconnection of transition pipeline, the gate was extracted to the flashboard, the transition pipeline switches on.

As a further optimization or improvement of the present solution.

The rice crushing device is characterized in that a rebounding mechanism used for upward rebounding of falling rice is further arranged in the crushing tank, the rebounding mechanism is located between the crushing cutter and the upper grinding disc and is arranged close to the crushing cutter, the rebounding mechanism comprises a second mounting disc which is coaxially rotatably sleeved on the main shaft, rebounding plates which extend outwards in the radial direction are arranged on the outer circular surface of the second mounting disc, the length direction of each rebounding plate is arranged in the radial direction of the second mounting disc, the width of each rebounding plate is gradually widened outwards in the radial direction of the second mounting disc, the rebounding plates are four and are arranged in an array mode in the circumferential direction of the second mounting disc, the rebounding plates are arranged into rebounding inclined planes along the side surfaces parallel to the tangential direction of the circumference of the second mounting disc, and the rebounding inclined;

the rebounding mechanism further comprises a reversing driving component for driving the second mounting plate to rotate reversely, the reversing driving component is positioned between the second mounting plate and the upper grinding plate and comprises a first circular fixing frame and a second circular fixing frame which are coaxially and fixedly mounted on the inner circular surface of the grinding tank, the first fixing frame and the second fixing frame are arranged at intervals and penetrate through the hollow parts from top to bottom, a casing fixedly connected with the first fixing frame and the second fixing frame is arranged between the first fixing frame and the second fixing frame, the casing is sleeved outside the main shaft, the reversing driving component further comprises a hollow transmission shaft coaxially and rotatably sleeved outside the main shaft, one end of the transmission shaft is coaxially and fixedly connected with the second mounting plate, the other end of the transmission shaft movably penetrates through the casing and extends into the casing, a driven gear is coaxially and fixedly sleeved at the end of the transmission shaft, the reversing driving component further comprises a driving, the inner wall of the machine shell is rotatably provided with two transmission gears which are axially vertical to the axial direction of the main shaft, the two transmission gears are symmetrically arranged along the axial direction of the main shaft, the driving gear, the driven gear and the transmission gear are all bevel gears, the driving gear is meshed with the transmission gear, and the transmission gear is meshed with the driven gear.

As a further optimization or improvement of the present solution.

The suspension separation device comprises an air blowing mechanism and a suspension tank which is vertically arranged in the axial direction, the air blowing mechanism is connected and communicated with the bottom of the suspension tank, the air blowing mechanism is used for blowing the rice flour discharged by the discharge channel into the suspension tank from bottom to top and suspending the rice flour in the suspension tank, the suspension tank discharges and collects suspended rice flour powder and discharges settled rice flour particles into the circulation device;

the air blowing mechanism comprises a material receiving cylinder which is fixedly arranged on a mounting frame and is axially and horizontally arranged, two ends of the material receiving cylinder are arranged in an opening mode, a discharge channel is inserted into the material receiving cylinder, the insertion position of the material receiving cylinder is positioned in the middle position of the material receiving cylinder along the axial direction of the material receiving cylinder, a hollow fixing frame III is fixedly arranged on the inner circular surface of one end of the material receiving cylinder, a servo motor capable of adjusting speed is arranged on the fixing frame III, the output shaft of the servo motor is axially arranged with the material receiving cylinder, the output shaft of the servo motor is arranged towards the discharge channel, a fan is coaxially and fixedly sleeved on the output shaft, the other end of the material receiving cylinder is positioned below a suspension tank, an input pipeline for connecting and connecting the material receiving cylinder and the material receiving cylinder is arranged between the material receiving cylinder and the suspension tank, the input, the output end of the output pipeline is sleeved with a cloth belt in a cloth cylinder shape, one end of the cloth belt is tightly tied, and the other end of the cloth belt is tightly tied on the output end of the output pipeline in a sleeved mode.

As a further optimization or improvement of the present solution.

The suspension tank comprises a cylindrical tank body which is vertically arranged in the axial direction, a top end cover which is arranged in a conical shape and has openings at the upper end and the lower end is arranged at the opening at the upper end of the tank body, a large opening of the top end cover is communicated with the opening at the upper end of the tank body, a lower opening of the top end cover is communicated with the input end of an output pipeline, a bottom end cover which is arranged in a conical shape and has openings at the upper end and the lower end is arranged at the opening at the lower end of the tank body, a large opening of the bottom end cover is communicated with the opening at the lower end of the tank body, a jet pipeline which extends towards the inside of the tank body is arranged at the small opening of the bottom end cover, the jet pipeline is coaxially arranged with the tank body and gradually narrows, the other end of the injection pipeline extends into the tank body, the end is an injection end, and the output end of the input pipeline is connected and communicated with the butt joint end of the injection pipeline.

As a further optimization or improvement of the present solution.

The circulating device comprises an outer sleeve which is positioned below a bottom end cover and coaxially sleeved outside an injection pipe, the bottom end of the outer sleeve and an opening formed at the top end of the injection pipe are arranged in a closed manner, an annular cavity is formed between the outer sleeve and the injection pipe, a blanking port for connecting and connecting the cavity and a tank body is formed in the bottom end cover, a plurality of blanking ports are arranged in an array manner along the circumferential direction of the injection pipe, the blanking ports are tightly attached to the injection pipe, the circulating device also comprises a circulating pipeline which is arranged on one side of the outer sleeve and axially parallel to the axial direction of a charging barrel, the circulating pipeline extends from one side of the outer sleeve to the crushing tank, one end of the circulating pipeline close to the outer sleeve is an input end, one end of the circulating pipeline close to the crushing tank is an output end, the input end of the circulating pipeline is arranged in a closed manner, the cavity is communicated with the outer circular surface of the input end of the circulating pipeline, a guide inclined plate which is annularly arranged and obliquely arranged is arranged in the cavity, the upper cavity of the guide inclined plate is divided into an upper cavity and a lower cavity which are sealed mutually, and the oblique lower end of the guide inclined plate points to the lower end edge of the communicated position of the upper cavity and the circulating pipeline;

set up the auger rather than the matching in the circulating line, the drive end of auger stretches out by the outside activity of circulating line's input, circulating device still include with mounting bracket fixed connection's circulating motor, circulating motor's the output shaft and the coaxial fixed connection of drive end of auger.

Compared with the prior art, the rice flour grinding device has the advantages of ingenious structure, simple principle and convenience in operation and use, the mixture of the rice flour powder and the rice flour particles subjected to primary grinding is subjected to suspension separation and screening through air suspension, the separated rice flour powder is directly discharged and collected, the separated rice flour particles are subjected to secondary grinding treatment in a circulating manner, the rice can be fully ground, meanwhile, the grinding stroke of the rice can be prolonged by adopting the conical upper grinding disc and the conical lower grinding disc, and the rice grinding efficiency is improved.

Drawings

Fig. 1 is a schematic view of the overall mechanism of the present invention.

Fig. 2 is a schematic view of the overall structure of the present invention.

Fig. 3 is a schematic view of the entire structure of the grinding apparatus.

Fig. 4 is a partial structural view of the grinding apparatus.

Fig. 5 is a schematic view of the internal structure of the grinding apparatus.

Fig. 6 is a partial structural view of the grinding apparatus.

Fig. 7 is an installation view of the lower grinding disc.

Fig. 8 is an installation view of the lower grinding disc.

Fig. 9 is a matching diagram of the lower grinding disc and the upper grinding disc.

Fig. 10 is a matching view of the lower grinding disc and the upper grinding disc.

Fig. 11 is a matching view of the lower grinding disc and the upper grinding disc.

Fig. 12 is a structural schematic diagram of the upper grinding disc.

Fig. 13 is a view showing the crushing blade and the main shaft.

Fig. 14 is a view of the adjustment mechanism in cooperation with the lower grinding disc.

Fig. 15 is a matching view of the adjusting mechanism and the lower grinding disc.

Fig. 16 is a schematic structural view of the adjustment mechanism.

Fig. 17 is a partial structural schematic view of the adjustment mechanism.

Fig. 18 is a partial structural view of the adjustment mechanism.

Fig. 19 is a partial structural schematic view of the adjustment mechanism.

Fig. 20 is a view showing the engagement of the driving mechanism with the spindle.

Fig. 21 is a schematic view of the feed mechanism.

Fig. 22 is a view of the lower disc in cooperation with the discharge passage.

Fig. 23 is a view of the lower disc in cooperation with the discharge passage.

FIG. 24 shows a combination of the rebound mechanism and the spindle.

FIG. 25 is a view showing the rebound mechanism engaged with the main shaft.

Fig. 26 is a partial structural view of the rebound mechanism.

FIG. 27 is a diagram of the suspension separation device in cooperation with a discharge channel.

Fig. 28 is a partial structural schematic view of the suspension separation apparatus.

Fig. 29 is a schematic view of the internal structure of the suspension tank.

FIG. 30 is a diagram showing the combination of the circulation device and the suspension tank.

FIG. 31 is a view showing the circulation device and the crush cans in combination.

Fig. 32 is a schematic view of the internal structure of the circulation device.

Labeled as: 100. A mounting frame;

200. a grinding device; 201. a grinding tank; 202. sealing the bottom plate; 203. sealing the top cover; 203a, an exhaust pipe; 203b, a sealing cap; 204. a lower grinding disc; 204a, a first rib; 205a, an outer cylinder; 205b, an inner cylinder; 206. a main shaft; 207. an upper grinding disc; 207a and a second rib; 207b, a boot disk; 208. a crushing knife; 208a, mounting a disc I; 208b, a plate body; 210. an adjustment mechanism; 211. a chute; 212. a slider; 213. a support ramp; 214. a support ring; 214a, lugs; 214b, guide rods; 215. a support spring; 216. a screw rod; 217. a hand wheel; 218. a timing belt assembly; 220. a drive mechanism; 221. a main motor; 222. a belt drive assembly; 230. a feeding mechanism; 231. a funnel; 232. a transition duct; 233. a gate opening; 234. a shutter plate; 240. a discharge channel; 250. a rebound mechanism; 251. mounting a second plate; 252. a rebound board; 253. a rebound slope; 254. a first fixing frame; 255. a second fixing frame; 256. a housing; 257. a drive shaft; 258a, a driven gear; 258b, a driving gear; 259. a transmission gear;

300. a suspension separation device; 310. a blower mechanism; 311. a material receiving barrel; 312. a third fixing frame; 313. a servo motor; 314. a fan; 316. an input pipe; 317. an output pipe; 320. a suspension tank; 321. a tank body; 322. a top end cap; 323. a bottom end cap; 324. an injection duct;

400. a circulation device; 401. an outer sleeve; 402. a blanking port; 403. a guide sloping plate; 404. a circulation pipe; 405. a packing auger; 406. a circulating motor.

Detailed Description

Referring to fig. 1 to 32, a suspension screening internal circulation rice mill comprises a mounting frame 100 which falls to the ground, a grinding device 200 fixedly mounted on the mounting frame 100, a suspension separation device 300 and a circulation device 400, wherein the grinding device 200 is used for grinding rice into rice flour and discharging the rice flour to the suspension separation device 300, the suspension separation device 300 is used for performing gas suspension separation on the rice flour and discharging rice flour powdery substances to the outside for collection treatment, and discharging rice flour particulate substances to the circulation device 400, the circulation device 400 is used for receiving the rice flour particulate substances discharged by the suspension separation device 300 and conveying the rice flour particulate substances to the grinding device 200 for secondary grinding treatment, and the circulation is performed so as to realize full grinding treatment on the rice.

Specifically, the grinding device 200 comprises a cylindrical grinding tank 201 which is arranged with openings at the upper end and the lower end and is vertical in the axial direction, a sealing bottom plate 202 which is detachably connected and matched with the opening at the lower end of the grinding tank 201 is arranged at the opening at the lower end of the grinding tank 201, a conical sealing top cover 203 which is detachably connected and matched with the opening at the upper end of the grinding tank and is arranged at the opening at the upper end, the opening size formed by the conical surface of the sealing top cover 203 is gradually narrowed from bottom to top, rice can be added from the top of the sealing top cover 203 to the grinding tank 201, a conical lower grinding disc 204 which can float up and down and is arranged with openings at the upper end and the lower end is coaxially arranged in the grinding tank 201, the opening size formed by the inner surface of the lower grinding disc 204 is gradually enlarged from bottom to top in the vertical direction, the outer circular surface of the lower grinding disc 204 is in sealing fit with the inner circular surface of the grinding tank 201, an inner cylinder 205b, the inner cylinder 205b is inserted into the outer cylinder 205a and forms a sliding guiding fit along the axial direction of the grinding tank 201, a main shaft 206 is coaxially arranged in the grinding tank 201, the top end of the main shaft 206 extends to the top of the grinding tank 201, the bottom end of the main shaft 206 movably penetrates through the sealing bottom plate 202 to be rotatably connected and matched with the mounting frame 100, a conical upper grinding disc 207 is coaxially and fixedly sleeved on the main shaft 206, the conicity of the upper grinding disc 207 is equal to that of the lower grinding disc 204, the upper grinding disc 207 is positioned above the lower grinding disc 204 and movably sleeved in the lower grinding disc 204, the diameter of the upper grinding disc 207 is smaller than that of the lower grinding disc 204, a gap L is reserved between the upper grinding disc 207 and the lower grinding disc 204 in an initial state, the L is equal to 0.2cm-0.4cm, in order to enable the upper grinding disc 207 and the lower grinding disc 204 to grind rice falling between the upper grinding disc 207 and, the first rib 204a is provided with a plurality of ribs and is arranged in an array along the circumferential direction of the lower grinding disc 204, the lower end face of the upper grinding disc 207 is provided with a second triangular rib 207a arranged along the generatrix direction of the upper grinding disc, the second rib 207a is provided with a plurality of ribs and is arranged in an array along the circumferential direction of the upper grinding disc 207, the protruding heights of the first rib 204a and the second rib 207a are equal to 1/2L, the upper grinding disc 207 is driven to rotate by the main shaft 206, rice falling between the upper grinding disc 207 and the lower grinding disc 204 is ground, the upper grinding disc 207 and the lower grinding disc 204 are driven to be tapered, the area for grinding the rice is increased, and the efficiency for grinding the rice is improved.

More specifically, in order to facilitate that the rice falling from the top of the pulverizing tank 201 can be dispersed all around and uniformly fall between the upper grinding disc 207 and the lower grinding disc 204, a conical guide disc 207b is coaxially and fixedly arranged at the top end of the upper grinding disc 207, the guide disc 207b and the upper grinding disc 207 have the same diameter, the distance between conical surfaces of the guide disc 207b and the upper grinding disc 207 is gradually reduced from bottom to top along the vertical direction, and the rice is guided by the guide disc 207b to be dispersed all around along the conical surfaces of the guide disc 207b and uniformly rolled and fall between the upper grinding disc 207 and the lower grinding disc 204.

More specifically, in order to improve the efficiency of the upper grinding disc 207 and the lower grinding disc 204 in grinding the rice, the top of the main shaft 206 is provided with the grinding knives 208 for grinding the rice, the grinding knives 208 include a first mounting disc 208a coaxially and fixedly sleeved on the top of the main shaft 206, the outer circumferential surface of the first mounting disc 208a is fixedly provided with four plate bodies 208b for crushing the rice at a high speed in a collision manner, the plate bodies 208b are arranged in an array manner along the circumferential direction of the first mounting disc 208a, the length direction of the plate bodies 208b is arranged along the radial direction of the first mounting disc 208a, the width direction of the plate bodies 208b is parallel to the tangential direction of the circumferential direction of the first mounting disc 208a, the plate bodies 208b extend outwards along the radial direction of the first mounting disc 208a and gradually widen, the distance between the plate bodies 208b and the inner wall of the grinding tank 201 is 1cm, and in order to improve the rice, the crushing cutter 208 is provided with two plate bodies 208b which are arranged up and down in a staggered mode, the main shaft 206 drives the crushing cutter 208 to rotate highly, rice falls from top to bottom, the side face of the plate body 208b collides and crushes the rice, and the rice is crushed.

The grinding device 200 further comprises an adjusting mechanism 210 for elastically supporting the lower grinding disc 204 and changing the gap between the lower grinding disc 204 and the upper grinding disc 207, a driving mechanism 220 for driving the main shaft 206 to rotate, a feeding mechanism 230 for feeding rice into the grinding tank 201 from top to bottom, and a discharge channel 240 which is communicated with the lower end opening of the inner cylinder 205b and guides the rice flour into the suspension separation device 300, wherein a user can change the gap between the lower grinding disc 204 and the upper grinding disc 207 through the adjusting mechanism 210, so that the granularity of the rice ground into powder by the lower grinding disc 204 and the upper grinding disc 207 is changed.

In the processing process, the driving mechanism 220 is started to operate and drives the main shaft 206 to rotate around the self axial direction at a high speed, the main shaft 206 drives the upper millstone 207 and the crushing knife 208 to synchronously rotate at a high height, then the feeding mechanism 230 adds the rice in the crushing tank 201 from the top to the inside, the rice freely falls from top to bottom in the crushing tank 201, in the process of passing through the crushing knife 208, the side surface of the plate body 208b rotated at a high speed is impacted and crushed into broken rice, the broken rice further falls down and falls onto the guide disc 207b, under the guide action of the guide disc 207b, the broken rice is scattered to the periphery and uniformly rolls down to the gap between the upper millstone 207 and the lower millstone 204, the upper millstone 207 and the lower millstone 204 rotated at a high speed are matched with each other to grind the broken rice into rice powder and enter the inner cylinder 205b, the discharge channel 240 discharges the rice powder to the suspension separation device 300, the suspension separation device 300 performs gas suspension separation on the rice flour, the separated rice flour powder is directly discharged and collected, the separated rice flour particles are discharged into the circulation device 400, the circulation device 400 discharges the rice flour particles into the crushing tank 201, and the upper grinding disc 207 and the lower grinding disc 204 perform secondary grinding treatment on the rice flour particles.

The adjusting mechanism 210 is arranged between the sealing bottom plate 202 and the lower grinding disc 204, the adjusting mechanism 210 comprises sliding chutes 211 fixedly arranged on the upper end surface of the sealing bottom plate 202, the sliding chutes 211 are positioned between the edges of the outer cylinder 205a and the sealing bottom plate 202, the sliding chutes 211 are arranged along the tangential direction of the circumferential direction of the grinding tank 201, the sliding chutes 211 are provided with two sliding blocks 212 which are symmetrically arranged along the axial direction of the outer cylinder 205a and form sliding guide fit with the sliding chutes 211, the sliding blocks 212 are provided with two sliding blocks 212 which are arranged at intervals, the upper end surface of the sliding blocks 212 is provided with supporting inclined surfaces 213, the distance between the two symmetrically arranged supporting inclined surfaces 213 is gradually increased from bottom to top along the vertical direction, the adjusting mechanism 210 further comprises a supporting ring 214 coaxially and movably sleeved outside the outer cylinder 205a, and an outward convex lug 214a is fixedly arranged on the outer circumferential surface of the, the two lugs 214a are arranged symmetrically along the axis of the support ring 214, the lugs 214a correspond to the sliding slots 211 one by one and are located right above the sliding slots 211, the lugs 214a are lined on two symmetrically arranged support inclined planes 213, the upper end face of the support ring 214 is fixedly provided with an upwards arranged guide rod 214b, the axial direction of the guide rod 214b is parallel to the axial direction of the support ring 214, the guide rods 214b are provided with a plurality of guide rods and are arranged in an array along the circumferential direction of the support ring 214, the lower grinding disc 204 is sleeved on the guide rods 214 and can slide up and down along the guide rods 214, the outer part of the guide rods 214 is movably sleeved with a support spring 215, one end of the support spring 215 is abutted with the support ring 214, the other end of the support spring is abutted with the lower grinding disc 204, and the, by sliding the sliders 212 close to each other, the support ring 214 is floated upward, so that the gap between the lower abrasive disc 204 and the upper abrasive disc 207 is reduced; by sliding the sliders 212 away from each other, the support ring 214 is floated downward, thereby increasing the gap between the lower abrasive disc 204 and the upper abrasive disc 207.

Specifically, in order to drive the sliding blocks 212 to slide close to or away from each other along the sliding groove 211, the adjusting mechanism 210 further includes a screw rod 216 rotatably erected on the sliding groove 211, an axial direction of the screw rod 216 is parallel to a spacing direction between the two sliding blocks 212 symmetrically arranged, the screw rod 216 includes a forward threaded section, a reverse threaded section and a smooth section, one of the sliding blocks 212 is sleeved on the forward threaded section of the screw rod 216 and forms a threaded connection fit with the forward threaded section, the other sliding block 212 is sleeved on the reverse threaded section of the screw rod 216 and forms a threaded connection fit with the reverse threaded section, the smooth section of the screw rod 216 movably penetrates through the crushing tank 201 to extend to the outside and is coaxially and fixedly provided with a hand wheel 217 at the end, in order to enable the two sets of sliding blocks 212 to slide synchronously, the support ring 214 can float horizontally upwards, the support ring 214 is prevented from tilting, a synchronous belt, by rotating any hand wheel 217, the two sets of sliding blocks 212 can be synchronously driven, so that the two sets of sliding blocks 212 can synchronously move close to or away from each other.

In the working process of the adjusting mechanism 210, when the gap between the lower grinding disc 204 and the upper grinding disc 207 needs to be reduced, the hand wheel 217 is rotated in the forward direction, the hand wheel 217 drives the rod 216 to rotate synchronously, the screw rod 216 drives the two sliders 212 to slide along the sliding grooves 211 to approach each other, the support inclined plane 213 enables the support ring 214 to float upwards, the lower grinding disc 204 floats near the upper grinding disc 207 under the action of the elastic force of the support spring 215, and the gap between the lower grinding disc 204 and the upper grinding disc 207 is reduced; when the gap between the lower grinding disc 204 and the upper grinding disc 207 needs to be increased, the hand wheel 217 is rotated reversely, the hand wheel 217 drives the screw rod 216 to rotate synchronously, the screw rod 216 drives the two sliding blocks 212 to slide away from each other along the sliding groove 211, the lower grinding disc 204 floats away from the upper grinding disc 207 under the action of self gravity, the distance between the lower grinding disc 204 and the upper grinding disc 207 is increased, the size of the gap between the lower grinding disc 204 and the upper grinding disc 207 is adjusted, the granularity of rice ground into rice flour can be changed on one hand, and the grinding of other coarse cereals, such as wheat, corn, soybean and the like, can be expanded on the other hand.

The driving mechanism 220 includes a main motor 221 fixedly mounted on the mounting frame 100, an output shaft of the main motor 221 is axially parallel to an axial direction of the main shaft 206, a belt transmission assembly 222 for connecting the main motor 221 and the main shaft 206 is arranged between the main motor 221 and the bottom end of the main shaft 206, the belt transmission assembly 222 includes a main belt pulley coaxially and fixedly sleeved on the output shaft of the main motor 211, a driven belt pulley coaxially and fixedly sleeved on the bottom end of the main shaft 206, and a belt arranged on the main belt pulley and the driven belt pulley and used for connecting the main belt pulley and the driven belt, and the belt transmission assembly 222 transmits power on the output shaft of the main motor 221 to the main shaft 206 and drives the.

The feeding mechanism 230 comprises a hopper 231 arranged above a sealing top cover 203, a vertical hard transition pipeline 232 for supporting the hopper 231 is arranged between the hopper 231 and the sealing bottom cover 203, one end of the transition pipeline 232 is connected with the lower end opening of the hopper 231, the other end of the transition pipeline is connected with the sealing top cover 203, in order to control the connection and disconnection of the transition pipeline 232, a horizontal gate 233 is arranged at the middle position of the transition pipeline 232 along the height direction, the gate 233 penetrates through the cross section of the transition pipeline 232, a gate 234 which is movably connected and matched with the gate 233 is arranged in the gate 233 in a plugging mode, the gate 234 is inserted into the gate 233, the transition pipeline 232 is disconnected, the gate 234 is pulled out of the gate 233, the transition pipeline 232 is conducted, in the using process, a user pours rice waiting for milling into the hopper 231, pulls out the gate 234 from the gate 233, and enables the rice to enter the milling tank 201 from the hopper 231 through the transition, and the flow rate at which the rice falls can be controlled by the degree to which the shutter 234 is pulled out.

In order to facilitate the feeding mechanism 230 to smoothly add rice into the crushing tank 201 towards the inside, an exhaust pipe 203a communicated with the inside of the crushing tank 201 is arranged on the sealing top cover 203, a sealing cap 203b matched with the exhaust pipe 203a in a threaded connection mode is sleeved on the output end of the exhaust pipe 203a, a plurality of fine holes are formed in the sealing cap 203b, the crushing tank 201 is communicated with the outside through the exhaust pipe 203a, when the rice is added towards the crushing tank 201, the air in the crushing tank 201 can be discharged to the outside through the exhaust pipe 203a, and the rice is convenient to fall into the crushing tank 201.

As a more optimized scheme of the present invention, in order to further increase the probability of collision between the crushing cutter 208 rotating at high speed and the rice, a rebounding mechanism 250 for rebounding the falling rice upwards is further arranged in the crushing tank 201, the rebounding mechanism 250 is located between the crushing cutter 208 and the upper grinding disc 207 and is arranged close to the crushing cutter 208, the rebounding mechanism 250 comprises a second mounting disc 251 coaxially and rotatably sleeved on the main shaft 206, a rebounding plate 252 extending outwards along the radial direction of the second mounting disc 251 is arranged on the outer circumferential surface of the second mounting disc 251, the length direction of the rebounding plate 252 is arranged along the radial direction of the second mounting disc 251, the width of the rebounding plate 252 is gradually widened outwards along the radial direction of the second mounting disc 251, the rebounding plates 252 are provided with four rebounding inclined surfaces 253 arranged along the circumferential direction of the second mounting disc 251, the rebounding inclined surfaces 253 is arranged along the side surfaces parallel to the tangential direction of the circumference of the second mounting disc 251, the rebounding inclined surfaces, the rice dropped thereto is flicked by driving the rebound slope 253 to rotate at a high speed around the axial direction of the main shaft 206, and the rice is moved upward to the crushing blade 208 to be crushed again by impact.

Specifically, in order to improve the collision probability between the rebounding slope 253 and the rice, the rebounding mechanism 250 further comprises a reversing driving member for driving the second mounting disk 251 to rotate reversely, the reversing driving member is located between the second mounting disk 251 and the upper grinding disk 207, the reversing driving member comprises a first circular fixing frame 254 and a second circular fixing frame 255 which are coaxially and fixedly mounted on the inner circular surface of the grinding tank 201, the first fixing frame 254 and the second fixing frame 255 are arranged at a distance and penetrate through the hollow from top to bottom, a casing 256 fixedly connected with the first fixing frame 254 and the second fixing frame 255 is arranged between the first fixing frame 254 and the second fixing frame 255, the casing 256 is sleeved outside the main shaft 206, the reversing driving member further comprises a hollow transmission shaft 257 coaxially and rotatably sleeved outside the main shaft 206, one end of the transmission shaft 247 is coaxially and fixedly connected with the second mounting disk 251, the other end movably penetrates through the casing 256 to, the reversing driving member further comprises a driving gear 258b coaxially and fixedly sleeved on the main shaft 206, the driving gear 258b is located in the machine shell 256 and located below the driven gear 258a, a transmission gear 259 axially perpendicular to the axial direction of the main shaft 206 is rotatably arranged on the inner wall of the machine shell 256, the transmission gear 259 is provided with two gears and symmetrically arranged along the axial direction of the main shaft 206, the driving gear 258b, the driven gear 258a and the transmission gear 259 are all bevel gears, the driving gear 258b is meshed with the transmission gear 259, the transmission gear 259 is meshed with the driven gear 258a, the power of the main shaft 206 is transmitted to the second mounting disk 251 through the reversing transmission member, and the second mounting disk 251 is driven to reversely rotate at a high speed, the meaning of the scheme is that on one hand, the power of the main shaft 206 can be transmitted to the second mounting disk 251, so that the second mounting disk 251, on the other hand, the rebound plate 252 and the crushing blade 208 rotate in opposite directions, so that the collision probability of the crushed rice crushed by the crushing blade 208 in one collision with the rebound inclined surface 253 is improved, and the collision probability of the crushed rice moving upwards and being crushed by the crushing blade 208 in the second collision is improved.

The rice will be discharged downwards by discharge channel 240 after grinding device 200 handles, and the rice flour includes rice flour likepowder and rice flour particulate matter this moment, in order to carry out separation treatment to rice flour likepowder and rice flour particulate matter, suspension separator 300 include air-blast mechanism 310 and the suspension jar 320 of axial vertical arrangement, the switch-on is connected with the bottom of suspension jar 320 to air-blast mechanism 310, air-blast mechanism 310 is used for blowing in the rice flour of discharge channel 240 discharge from bottom to top in suspension jar 320 and making rice flour suspend in suspension jar 320, suspension jar 320 will suspend the rice flour likepowder discharge of rice and collect, discharge the rice flour particulate matter that sinks to in circulating device 400.

Specifically, the blowing mechanism 310 includes a material receiving cylinder 311 fixedly installed on the mounting frame 100 and arranged horizontally in the axial direction, two ends of the material receiving cylinder 311 are arranged with openings, the material discharging channel 240 is inserted into the material receiving cylinder 311 and the insertion position is located at the middle position of the material receiving cylinder 311 along the axial direction, a hollow fixing frame three 312 is fixedly arranged on the inner circular surface of one end of the material receiving cylinder 311, a speed-adjustable servo motor 313 is arranged on the fixing frame three 312, the output shaft of the servo motor 313 is arranged coaxially with the material receiving cylinder 311 in the axial direction, the output shaft of the servo motor 313 is arranged towards the material discharging channel 240 and is coaxially and fixedly sleeved with a fan 314 on the output shaft, the other end of the material receiving cylinder 311 is located below the suspension tank 320 and is provided with an input pipeline 316 for connecting and connecting the two, the input end of the input pipeline 316 is connected and connected with the other end, the output tube 317 that is provided with rather than the switch-on is connected on the top of suspension jar 320, for collecting the processing to output tube 317 exhaust rice flour likepowder, the cloth area (not shown in the figure) of cloth system tube-shape has been cup jointed on output tube 317's the output, cloth area one end is tied tightly, the other end is cup jointed and is tied tightly on output tube 317's output, takes the cloth area to carry out the aim at of collecting to rice flour likepowder, is convenient for exhaust, can collect rice flour likepowder simultaneously.

More specifically, in order to facilitate the suspension tank 320 to fully suspend the rice flour blown out from the input pipeline 316, the suspension tank 320 includes a cylindrical tank 321 vertically arranged in the axial direction, a top end cap 322 arranged in a tapered manner and having openings at upper and lower ends is provided at an upper end opening of the tank 321, a large opening of the top end cap 322 is connected and communicated with an upper end opening of the tank 321, a lower opening of the top end cap 322 is connected and communicated with an input end of the output pipeline 317, a bottom end cap 323 arranged in a tapered manner and having openings at upper and lower ends is provided at a lower end opening of the tank 321, a large opening of the bottom end cap 323 is connected and communicated with a lower end opening of the tank 321, a small opening of the bottom end cap 323 is connected and communicated with an injection pipeline 324 extending towards the tank 321, the injection pipeline 324 is arranged coaxially with the tank 321 and gradually narrows from bottom, one end of the spraying pipe 324 extends to the lower part of the bottom end cover 323 and is a butt end, the other end of the spraying pipe 324 extends into the tank body 321 and is a spraying end, the output end of the input pipe 316 is communicated with the butt end of the spraying pipe 324, the significance of the scheme is that the rice flour sprayed by the spraying pipe 324 can be fully dispersed in the whole suspension tank 320 for suspension separation, wherein the gravity of the rice flour powder is smaller than the buoyancy of air and enters the output pipe 327 under the guiding gathering action of the conical top end cover 322, and the gravity of the rice flour particles is larger than the buoyancy of the air and sinks into the conical bottom end cover 323.

During the operation of the suspension separation device 300, the servo motor 313 is started, the output end of the servo motor 313 drives the fan 314 to rotate and generate an air flow towards the input pipeline 316, the air flow blows the rice flour discharged from the discharge channel 240 towards the input pipeline 316, then the rice flour is sprayed and dispersed towards the tank body 321 through the spraying pipeline 317, under the action of the air flow, the gravity of the rice flour powder is smaller than the buoyancy of the air and enters the output pipeline 327 under the guiding and gathering action of the conical top end cover 322, the output pipeline 327 discharges the rice flour powder and collects and processes the rice flour powder, meanwhile, the gravity of the rice flour particles is larger than the buoyancy of the air and falls into the conical bottom end cover 323, the air suspension separation and screening of the rice flour is completed, meanwhile, the flow rate of the air flow can be changed by adjusting the rotation speed of the servo motor 313, so that the buoyancy of the air in the tank body 321 is changed, and then the size of the rice flour particles which fall and sink is controlled.

In order to discharge rice flour particles which are sunk in the bottom end cover 323 into the grinding tank 201 for secondary grinding, the circulating device 400 comprises an outer sleeve 401 which is positioned below the bottom end cover 323 and coaxially sleeved outside the injection pipe 324, the bottom end of the outer sleeve 401 and the top end of the injection pipe 324 are arranged in a closed manner, an annular cavity is formed between the outer sleeve 401 and the injection pipe 324, a blanking port 402 which is used for connecting and communicating the cavity and the tank body 321 is formed in the bottom end cover 323, a plurality of blanking ports 402 are arranged along the circumferential direction of the injection pipe 324, the blanking ports 402 are arranged in close contact with the injection pipe 324, the circulating device 400 further comprises a circulating pipe 404 which is arranged on one side of the outer sleeve 401 and is axially parallel to the axial direction of the material receiving pipe 311, the circulating pipe 404 extends from one side of the outer sleeve 401 to the grinding tank 201, and one end close to the outer sleeve 401 is, Be close to crushing jar 201 one end and be the output, the input of circulating line 404 is sealed to be arranged, the output opens to arrange, and the output of circulating line 404 is connected the switch-on with crushing jar 201 and the switch-on department is located between mount 254 and mount two 255, and the switch-on is connected to the outer disc of cavity and circulating line 404 input, in order to be convenient for with leading-in to the circulating line 404 of the rice flour particulate matter in the cavity, be provided with in the cavity and be the annular guide swash plate 403 of arranging and slope and arranging, the cavity is separated for upper chamber and lower cavity of mutual sealing on the guide swash plate 403, and the slope lower extreme of guide swash plate 403 points to the lower extreme edge of upper chamber and.

Specifically, in order to make the rice flour particulate matter of leading-in to the circulating line 404 input to smashing jar 201 in, set up the auger 405 rather than matching in the circulating line 404, the drive end of auger 405 is stretched out by the outside activity of circulating line 404's input, circulating device 400 still includes the circulating motor 406 with mounting bracket 100 fixed connection, the coaxial fixed connection of drive end of circulating motor 406 and auger 405, drive auger 405 through circulating motor 406 and rotate, carry out the secondary grinding processing to smashing jar 201 with the rice flour particulate matter in the circulating line 404.

In the working process of the circulating device 400, the circulating motor 406 is started, the circulating motor 406 drives the packing auger 405 to rotate, meanwhile, rice flour particles which are sunk into the bottom end cover 323 enter the upper cavity through the blanking port 402, under the action of the guide inclined plate 403, the rice flour particles are guided to slide into the input end of the circulating pipeline 404, and the packing auger 405 rotates to convey the rice flour particles at the input end of the circulating pipeline 404 into the crushing tank 201 for secondary grinding treatment.

Claims (10)

1. Rice processing equipment, its characterized in that: the rice grinding and separating device comprises a landing mounting frame, a grinding device, a suspension separating device and a circulating device, wherein the grinding device, the suspension separating device and the circulating device are fixedly mounted on the mounting frame, the grinding device is used for grinding rice into rice flour and discharging the rice flour to the suspension separating device, the suspension separating device is used for performing gas suspension separation on the rice flour and discharging rice flour powder to the outside for collection treatment, and rice flour particles are discharged into the circulating device, and the circulating device is used for receiving the rice flour particles discharged by the suspension separating device and conveying the rice flour particles into the grinding device for secondary grinding processing;

the grinding device comprises a cylindrical grinding tank which is arranged by opening at the upper end and the lower end and is vertical to the axial direction, a lower end opening of the grinding tank is provided with a sealing bottom plate which can be disassembled and connected with a matched sealing top cover, an upper end opening is provided with a conical sealing top cover which can be disassembled and connected with a matched sealing top cover, the opening size formed by the conical surface of the sealing top cover is gradually narrowed from bottom to top, rice can be added into the grinding tank from the top of the sealing top cover to the direction of the grinding tank, a conical lower grinding disc which can float up and down and is arranged by opening at the upper end and the lower end is coaxially arranged in the grinding tank, the opening size formed by the inner circular surface of the lower grinding disc is gradually increased from bottom to top along the vertical direction, the outer circular surface of the lower.

2. The rice processing apparatus of claim 1, wherein: the upper end surface of the sealing bottom plate is provided with an outer cylinder body which is coaxially arranged with the crushing tank and penetrates through the crushing tank from top to bottom, the inner cylinder body is inserted into the outer cylinder body, the inner cylinder body and the outer cylinder body form sliding guide fit along the axial direction of the crushing tank, a main shaft is coaxially arranged in the crushing tank, the top end of the main shaft extends to the top of the crushing tank, the bottom end of the main shaft movably penetrates through the sealing bottom plate to be rotatably connected and matched with the mounting frame, a conical upper grinding disc is fixedly sleeved on the main shaft, the conicity of the upper grinding disc is equal to that of the lower grinding disc, the upper grinding disc is positioned above the lower grinding disc and movably sleeved in the lower grinding disc, the diameter of the upper grinding disc is smaller than that of the lower grinding disc, a clearance L is reserved between the upper grinding disc and the lower grinding disc in an initial state and is equal to 0.2cm, the lower end face of the upper grinding disc is provided with a plurality of triangular ribs II arranged along the generatrix direction of the upper grinding disc, the plurality of the triangular ribs II are arranged in an array manner along the circumferential direction of the upper grinding disc, and the protruding heights of the ribs I and the ribs II are equal to 1/2L;

the top end of the upper grinding disc is coaxially and fixedly provided with a conical guide disc, the diameters of the guide disc and the upper grinding disc are equal, and the distance between conical surfaces of the guide disc and the upper grinding disc is gradually reduced from bottom to top along the vertical direction;

the sealing top cover is provided with an exhaust pipe communicated with the inner connection of the crushing tank, the output end of the exhaust pipe is sleeved with a sealing cap which is in threaded connection with the exhaust pipe, and the sealing cap is provided with a plurality of pores.

3. The rice processing apparatus of claim 2, wherein: the top of main shaft is provided with the crushing sword that is used for smashing the preliminary treatment to the rice, crushing sword cup joints the mounting disc one on the main shaft top including coaxial fixed, the fixed plate body that is provided with on the outer disc of mounting disc one and is used for carrying out high-speed striking breakage to the rice, the plate body is provided with four and arranges along a mounting disc place circumferencial direction array, the length direction of plate body is along radial arrangement of mounting disc one, width direction is on a parallel with the tangential direction of a mounting disc place circumferencial direction, the plate body is extended gradually along a radial outside extension of mounting disc, the distance between the inner wall of plate body and crushing jar is 1cm, crushing sword is provided with two and upper and lower plate body staggered arrangement from top to bottom.

4. The rice processing apparatus of claim 1, wherein: the grinding device also comprises an adjusting mechanism, a driving mechanism, a feeding mechanism and a discharge channel, wherein the adjusting mechanism is used for elastically supporting the lower grinding disc and changing the gap between the lower grinding disc and the upper grinding disc, the driving mechanism is used for driving the main shaft to rotate, the feeding mechanism is used for feeding rice into the grinding tank from top to bottom, and the discharge channel is communicated with an opening at the lower end of the inner cylinder body and guides the rice flour out of the suspension separation device.

5. The rice processing apparatus of claim 4, wherein: the adjusting mechanism is arranged between the sealing bottom plate and the lower grinding disc, the adjusting mechanism comprises sliding chutes fixedly arranged on the upper end face of the sealing bottom plate, the sliding chutes are positioned between the edges of the outer cylinder and the sealing bottom plate and are arranged along the tangential direction of the circumferential direction of the crushing tank, the sliding chutes are provided with two sliding blocks which are symmetrically arranged along the axial direction of the outer cylinder, the sliding chutes are internally provided with two sliding blocks which form sliding guide fit with the sliding chutes, the sliding blocks are arranged at intervals, the upper end face of each sliding block is provided with a supporting inclined face, the distance between the two supporting inclined faces which are symmetrically arranged is gradually increased from bottom to top along the vertical direction, the adjusting mechanism further comprises a supporting ring coaxially and movably sleeved outside the outer cylinder, convex lugs which are outwards convex are fixedly arranged on the outer circular face of the supporting ring, the convex lugs are provided with two convex lugs which are symmetrically arranged along the axial, the supporting ring is provided with a plurality of guide rods which are arranged upwards, the upper end face of the supporting ring is fixedly provided with the guide rods which are arranged upwards, the axial direction of each guide rod is parallel to the axial direction of the supporting ring, the guide rods are arranged in an array mode along the circumferential direction where the supporting ring is located, the lower grinding disc is sleeved on the guide rods and can slide up and down along the guide rods, a supporting spring is movably sleeved outside each guide rod, one end of each supporting spring is abutted against the supporting ring, the other end of each supporting spring is abutted against the lower grinding disc, and the elasticity of each supporting spring is always directed to the lower;

the adjusting mechanism still including rotating the lead screw of erectting on the spout, the axial direction of lead screw is on a parallel with the interval direction between two sliders of symmetrical arrangement, the lead screw includes forward thread section, reverse thread section and smooth section, one of them slider cup joints on the forward thread section of lead screw and both constitute the threaded connection cooperation, another slider cup joints on the reverse thread section of lead screw and both constitute the threaded connection cooperation, the smooth section activity of lead screw is passed and is smashed the jar and extend to the outside and this end coaxial fixation is provided with the hand wheel, two lead screws deviate from and are provided with the hold-in range subassembly that is used for connecting both between the hand wheel one end.

6. The rice processing apparatus of claim 4, wherein: the driving mechanism comprises a main motor fixedly installed on the installation frame, the axial direction of an output shaft of the main motor is parallel to the axial direction of the main shaft, a belt transmission assembly used for being connected with the main motor and the main shaft is arranged between the main motor and the bottom end of the main shaft, the belt transmission assembly comprises a main belt wheel coaxially and fixedly sleeved on an output shaft of the main motor, a driven belt wheel coaxially and fixedly sleeved on the bottom end of the main shaft, and a belt arranged between the driving belt wheel and the driven belt wheel and used for being connected with the.

7. The rice processing apparatus of claim 4, wherein: feed mechanism including setting up in the funnel of seal top cap top, be provided with the vertical stereoplasm transition pipeline that supports the funnel between funnel and the seal bottom, transition pipeline one end is connected the switch-on with the lower extreme opening of funnel, the other end is connected the switch-on with seal top cap, transition pipeline is provided with horizontal gate and gate along its direction of height's middle part position and runs through the cross section of transition pipeline, is provided with in the gate rather than constituting the activity plug and connect complex flashboard, in the flashboard inserted the gate, the disconnection of transition pipeline, the gate was extracted to the flashboard, the transition pipeline switches on.

8. The rice processing apparatus of claim 2, wherein: the rice crushing device is characterized in that a rebounding mechanism used for upward rebounding of falling rice is further arranged in the crushing tank, the rebounding mechanism is located between the crushing cutter and the upper grinding disc and is arranged close to the crushing cutter, the rebounding mechanism comprises a second mounting disc which is coaxially rotatably sleeved on the main shaft, rebounding plates which extend outwards in the radial direction are arranged on the outer circular surface of the second mounting disc, the length direction of each rebounding plate is arranged in the radial direction of the second mounting disc, the width of each rebounding plate is gradually widened outwards in the radial direction of the second mounting disc, the rebounding plates are four and are arranged in an array mode in the circumferential direction of the second mounting disc, the rebounding plates are arranged into rebounding inclined planes along the side surfaces parallel to the tangential direction of the circumference of the second mounting disc, and the rebounding inclined;

the rebounding mechanism further comprises a reversing driving component for driving the second mounting plate to rotate reversely, the reversing driving component is positioned between the second mounting plate and the upper grinding plate and comprises a first circular fixing frame and a second circular fixing frame which are coaxially and fixedly mounted on the inner circular surface of the grinding tank, the first fixing frame and the second fixing frame are arranged at intervals and penetrate through the hollow parts from top to bottom, a casing fixedly connected with the first fixing frame and the second fixing frame is arranged between the first fixing frame and the second fixing frame, the casing is sleeved outside the main shaft, the reversing driving component further comprises a hollow transmission shaft coaxially and rotatably sleeved outside the main shaft, one end of the transmission shaft is coaxially and fixedly connected with the second mounting plate, the other end of the transmission shaft movably penetrates through the casing and extends into the casing, a driven gear is coaxially and fixedly sleeved at the end of the transmission shaft, the reversing driving component further comprises a driving, the inner wall of the machine shell is rotatably provided with two transmission gears which are axially vertical to the axial direction of the main shaft, the two transmission gears are symmetrically arranged along the axial direction of the main shaft, the driving gear, the driven gear and the transmission gear are all bevel gears, the driving gear is meshed with the transmission gear, and the transmission gear is meshed with the driven gear.

9. The rice processing apparatus of claim 1, wherein: the suspension separation device comprises an air blowing mechanism and a suspension tank which is vertically arranged in the axial direction, the air blowing mechanism is connected and communicated with the bottom of the suspension tank, the air blowing mechanism is used for blowing the rice flour discharged by the discharge channel into the suspension tank from bottom to top and suspending the rice flour in the suspension tank, the suspension tank discharges and collects suspended rice flour powder and discharges settled rice flour particles into the circulation device;

the air blowing mechanism comprises a material receiving cylinder which is fixedly arranged on a mounting frame and is axially and horizontally arranged, two ends of the material receiving cylinder are arranged in an opening mode, a discharge channel is inserted into the material receiving cylinder, the insertion position of the material receiving cylinder is positioned in the middle position of the material receiving cylinder along the axial direction of the material receiving cylinder, a hollow fixing frame III is fixedly arranged on the inner circular surface of one end of the material receiving cylinder, a servo motor capable of adjusting speed is arranged on the fixing frame III, the output shaft of the servo motor is axially arranged with the material receiving cylinder, the output shaft of the servo motor is arranged towards the discharge channel, a fan is coaxially and fixedly sleeved on the output shaft, the other end of the material receiving cylinder is positioned below a suspension tank, an input pipeline for connecting and connecting the material receiving cylinder and the material receiving cylinder is arranged between the material receiving cylinder and the suspension tank, the input, the output end of the output pipeline is sleeved with a cloth belt in a cloth cylinder shape, one end of the cloth belt is tightly tied, and the other end of the cloth belt is tightly tied on the output end of the output pipeline in a sleeved mode.

10. The rice processing apparatus of claim 9, wherein: the suspension tank comprises a cylindrical tank body which is vertically arranged in the axial direction, a top end cover which is arranged in a conical shape and has openings at the upper end and the lower end is arranged at the opening at the upper end of the tank body, a large opening of the top end cover is communicated with the opening at the upper end of the tank body, a lower opening of the top end cover is communicated with the input end of an output pipeline, a bottom end cover which is arranged in a conical shape and has openings at the upper end and the lower end is arranged at the opening at the lower end of the tank body, a large opening of the bottom end cover is communicated with the opening at the lower end of the tank body, a jet pipeline which extends towards the inside of the tank body is arranged at the small opening of the bottom end cover, the jet pipeline is coaxially arranged with the tank body and gradually narrows, the other end of the injection pipeline extends into the tank body, the end is an injection end, and the output end of the input pipeline is connected and communicated with the butt joint end of the injection pipeline;

the circulating device comprises an outer sleeve which is positioned below a bottom end cover and coaxially sleeved outside an injection pipe, the bottom end of the outer sleeve and an opening formed at the top end of the injection pipe are arranged in a closed manner, an annular cavity is formed between the outer sleeve and the injection pipe, a blanking port for connecting and connecting the cavity and a tank body is formed in the bottom end cover, a plurality of blanking ports are arranged in an array manner along the circumferential direction of the injection pipe, the blanking ports are tightly attached to the injection pipe, the circulating device also comprises a circulating pipeline which is arranged on one side of the outer sleeve and axially parallel to the axial direction of a charging barrel, the circulating pipeline extends from one side of the outer sleeve to the crushing tank, one end of the circulating pipeline close to the outer sleeve is an input end, one end of the circulating pipeline close to the crushing tank is an output end, the input end of the circulating pipeline is arranged in a closed manner, the cavity is communicated with the outer circular surface of the input end of the circulating pipeline, a guide inclined plate which is annularly arranged and obliquely arranged is arranged in the cavity, the upper cavity of the guide inclined plate is divided into an upper cavity and a lower cavity which are sealed mutually, and the oblique lower end of the guide inclined plate points to the lower end edge of the communicated position of the upper cavity and the circulating pipeline;

set up the auger rather than the matching in the circulating line, the drive end of auger stretches out by the outside activity of circulating line's input, circulating device still include with mounting bracket fixed connection's circulating motor, circulating motor's the output shaft and the coaxial fixed connection of drive end of auger.