CN210019073U - Automatic rice washing device - Google Patents

Abstract

An automatic rice washing device. Relate to automatic culinary art technical field, especially relate to an automatic rice device of washing. Provides an automatic rice washing device which is adapted to a self-service fried rice vending machine. Through diaphragm pump and storage rice bucket intercommunication, including locating in washing the rice bucket and by washing the rotatory rice mechanism of washing of rice motor drive, wash be equipped with the water inlet on the lateral wall of rice bucket respectively and advance a meter mouth, advance a meter mouth through the diaphragm pump with store up rice bucket intercommunication, the water inlet passes through pipeline and water source intercommunication, the bottom of washing the rice bucket is equipped with the export that is used for going out water and goes out rice. And when water and rice enter the rice washing barrel, rice is washed. Can realize automatic rice washing, thereby having good adaptability with the self-service rice frying and racking machine.

Description

Automatic rice washing device

Technical Field

The utility model relates to an automatic cook technical field, especially relate to an automatic rice washing device.

Background

Fried rice is a food which is popular among the public at ordinary times. Most of fried rice eaten by people is cooked by self or ordered in restaurants, and because the raw materials of the fried rice are completely intervened manually, the rice is easily intervened manually in actual operation, the rice grains have different hardness degrees, and the taste of each fried rice is different.

And in the actual production, the fried rice is fried manually, even if an automatic frying machine exists in the frying process, for example, a Chinese patent application with a name of an intelligent automatic fried rice vending machine (CN 108634778A) disclosed by 2018-10-22 discloses a machine frame on which a heating mechanism, a frying pan mechanism, a turning-over rice outlet mechanism, a food material quantitative supply device, a lunch box supply device and a box cover supply device are arranged. The utility model discloses in, promote through air spring pole cooperation electric putter and turn over a pot swing arm, realize the steady upset of the sphere stir-fry pot body, but bulky, and what adopt is the rice that has already boiled, needs the manual work to add rice in the in-service use, can't realize washing rice automatically and cook.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, the utility model aims to provide a: provides an automatic rice washing device which is adapted to a self-service fried rice vending machine.

The purpose of the utility model is realized by adopting the following technical scheme: through diaphragm pump and storage rice bucket intercommunication, including locating in washing the rice bucket and by washing the rotatory rice mechanism of washing of rice motor drive, wash be equipped with the water inlet on the lateral wall of rice bucket respectively and advance a meter mouth, advance a meter mouth through the diaphragm pump with store up rice bucket intercommunication, the water inlet passes through pipeline and water source intercommunication, the bottom of washing the rice bucket is equipped with the export that is used for going out water and goes out rice.

Further, wash rice mechanism including by washing the rotatory rice pivot of washing of rice motor drive, wash the rice pivot and stretch into wash in the rice bucket, it sets up a plurality of rice of washing commentaries on classics pages on the rice pivot to wash.

Furthermore, a plurality of the rice washing rotating blades are radially and uniformly distributed on the rice washing rotating shaft, and the tail end of the rice washing rotating shaft is provided with a rotating blade component for filtering water.

Furthermore, the rice washing rotating shaft is a hollow shaft, and a plurality of through holes are uniformly distributed in the side wall of the rice washing rotating shaft.

Further, the rotary blade component comprises a rice filtering rotary blade and a rice blocking blade, wherein the rice filtering rotary blade is sleeved at the tail end of the rice washing rotary shaft, the rice washing rotary shaft is sleeved with the rice blocking blade, the rice filtering rotary blade is arranged on the rice filtering rotary blade, and a plurality of water filtering holes are uniformly distributed in the rice filtering rotary blade.

Furthermore, the rice blocking blade comprises a blocking blade, one end of the blocking blade is fixed on a hollow pipe, the hollow pipe is sleeved at the tail end of the rice washing rotating shaft, and a plurality of through holes are uniformly distributed in the blocking blade;

a clamping groove is formed in the side wall of the rice washing rotating shaft along the axis direction, and the blocking sheet is clamped in the clamping groove and extends out of the clamping groove to be contacted with the rice filtering rotary vane.

Further, strain rice rotary vane and include rotating vane, rotating vane locates on the rotation axis, the rotation axis is the hollow shaft, the rotation axis cover is established the outside of hollow tube.

Furthermore, a guide groove is formed in the contact part of the rotating shaft and the blocking sheet, a blocking groove is further formed in the rotating shaft, and the blocking groove is formed in one side of the guide groove.

Furthermore, the outlet is divided into a water outlet and a rice outlet by a partition plate, a separation baffle is arranged at the upper end of the partition plate, the separation baffle is driven by a separation motor to seal the water outlet or the rice outlet, the water outlet is communicated with a sewer through a pipeline, and a control valve is arranged on the pipeline.

A self-service fried rice vending machine comprises an automatic rice washing device.

Compared with the prior art, the beneficial effects of the utility model reside in that: the rice washing device feeds rice through the diaphragm pump, the diaphragm pump can be controlled by the controller, the controller can adopt a PLC (programmable logic controller), preferably a PLC of S7-200 type manufactured by German Siemens company, so that the running time of the diaphragm pump 1 can be conveniently controlled by the PLC.

The water inlet is formed in the water inlet, the electromagnetic valve can be arranged on the water inlet, the on-off of the electromagnetic valve is controlled through the PLC, so that the water inflow can be conveniently controlled, the water inflow is controlled according to the rice quantity, and the water is saved to the greatest extent while the rice washing water is ensured. And when water and rice enter the rice washing barrel, rice is washed. Can realize automatic rice washing, thereby having good adaptability with the self-service rice frying and racking machine.

Drawings

FIG. 1 is a schematic structural diagram of the present application,

FIG. 2 is a schematic view of the rice washing apparatus;

FIG. 3 is a schematic view of the internal structure of the rice washing device;

FIG. 4 is a schematic structural view of a rice washing mechanism in the present case;

FIG. 5 is a schematic structural view of the hinge assembly of the present application;

FIG. 6 is a schematic structural view of a rice blocking blade in the present case;

FIG. 7 is a schematic view of the structure of the rotary blade of the present invention;

FIG. 8 is a schematic view of the outlet structure of the rice washing device in the present case;

FIG. 9 is a first schematic structural view of the rice frying device;

FIG. 10 is a second schematic view of the rice frying apparatus;

FIG. 11 is a schematic view of a quantitative adding mechanism for fried rice in the present case;

FIG. 12 is a schematic view of a rice frying device with a barrel shape;

FIG. 13 is a schematic view of a rice frying rotary tooth structure in the barrel-shaped rice frying device;

FIG. 14 is a schematic view of the structure of the spherical rice frying device;

FIG. 15 is a view showing the inner structure of the spherical rice frying device;

FIG. 16 is a schematic view of the structure of the rice frying and distributing device;

FIG. 17 is a schematic view of the rail structure of the rice frying and distributing device;

FIG. 18 is a schematic view of the structure of a hopper of the rice frying and distributing device;

FIG. 19 is a schematic structural view of an oil adding device according to the present invention;

FIG. 20 is a schematic view of the internal structure of the oil feeding device of the present invention;

FIG. 21 is a schematic structural view of a salt adding mechanism according to the present invention;

FIG. 22 is a schematic view of the internal structure of the salt adding mechanism of the present invention;

FIG. 23 is a schematic view of a blanking plywood structure with a salt adding structure in the present case;

FIG. 24 is a first schematic structural view of an auxiliary material adding mechanism according to the present invention;

FIG. 25 is a schematic structural view of an auxiliary material adding mechanism according to the present invention;

fig. 26 is a schematic structural view of a striker plate of the auxiliary material adding hook in the present case;

FIG. 27 is a schematic structural view of the movable loading mechanism of the present application;

FIG. 28 is a schematic view of a material loading slot of the movable material loading mechanism of the present invention;

FIG. 29 is a schematic structural view of an automatic packing apparatus in the present application;

FIG. 30 is a schematic structural view of a lunch box falling device in the automatic packaging device according to the present invention;

FIG. 31 is a schematic structural view of a lunch box transfer device according to the present invention;

FIG. 32 is a schematic structural view of the transfer platform of the present application;

FIG. 33 is a first schematic structural view of a capping device according to the present invention;

FIG. 34 is a second structural view of the capping device according to the present invention;

in the figure 1, a diaphragm pump; 2. a rice washing device; 21. a rice washing barrel; 22. a rice inlet; 23. a water inlet;

24. a rice washing mechanism; 241. washing a rice rotating shaft; 2411. a card slot; 242. washing rice and turning pages; 243. a hinge assembly; 2431. filtering rice and rotating leaves; 24311. a rotating blade; 24312. a hollow shaft; 243121, a guide groove; 243122, a barrier groove; 2432. a rice blocking blade; 24321. blocking the page; 24322. a hollow tube; 2433. water filtering holes; 244. a through hole;

25. an outlet; 251. a rice outlet; 252. a water outlet; 253. separating the baffle plate; 254. a control valve;

3. a rice frying device; 31. a barrel-shaped rice frying device; 311. a fried rice dividing device; 3111. a funnel; 3112. a track; 31121. a slide rail; 31122. a lead screw; 3113. a horizontal driving motor; 3114. a page turning baffle;

312. a fixed mount; 313. a tub rotating motor;

314. a barrel cover; 3141. a fixed cover; 3142. a movable cover;

315. frying rice and rotating teeth; 3151. a primary frying motor; 3152. preliminary frying the shaft; 316. heating wires;

317. an oil adding device; 3171. an oil storage tank; 3172. a feed inlet; 3173. adjusting a valve; 3174. an electric motor; 3175. spiraling;

32. a spherical rice frying device; 321. a spherical pan; 322. a cover opening motor; 323. a rotating cover; 324. a ball pan motor; 325. a heating device; 326. a stir-frying device;

33. a fried rice quantitative adding device; 331. a hopper; 332. an equal-portion adding mechanism;

34. an auxiliary material adding mechanism; 341. an auxiliary material addition tank; 342. adding a tank partition plate; 343. a feed tank; 3431. A body; 3432. a base plate; 3433. a material separating plate; 3434. a striker plate; 3435. a long hole;

35. a seasoning adding mechanism; 351. a salt addition mechanism; 352. a sauce adding mechanism; 3521. a salt storage tank; 3522. a salt spreading mechanism; 35221. a salt spreading motor; 35222. an eccentric cam; 35223. blanking a cut-off board; 35224. a drive bar;

36. a movable material loading mechanism; 361. running the track; 362. a material loading groove; 363. an auxiliary material push plate; 364. a push plate slide rail; 365. an inclined plate;

4. an automatic packing device; 41. a conveyor belt; 42. a lunch box dropping device; 421. a lunch box storage box; 422. A blanking mechanism;

43. a lunch box transfer device; 431. a transfer platform; 4311. a support plate; 4312. a transfer roll shaft; 4313. a limiting column; 4314. a roll shaft motor; 432. a main transmission member; 433. a slave drive member;

44. a capping device; 441. a lower cover device; 442. a gland assembly; 4421. a capping roller; 4422. pressing a cover plate; 4423. a positioning column; 443. a gland platform.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and the detailed description, and it should be noted that the embodiments or technical features described below can be arbitrarily combined to form a new embodiment without conflict.

The utility model discloses as shown in figure 1, an automatic rice washing device, which comprises a rice storage barrel arranged at the bottom of a frame, wherein the rice storage barrel is communicated with a rice washing device 2 arranged on the frame through a diaphragm pump 1, and the rice washing device 2 is communicated with a rice frying device 3; the automatic rice washing device also comprises an automatic packing device 4 arranged on the frame, and the automatic packing device 4 is arranged below the discharge hole of the rice frying device 3; the rice frying device 3 comprises a barrel-shaped rice frying device 31 communicated with the rice washing device 2 and at least one spherical rice frying device 32 communicated with the barrel-shaped rice frying device 31, a salt seasoning tank and a plurality of liquid seasoning tanks are further arranged on the rack, and discharge ports of the liquid seasoning tanks and discharge ports of the salt seasoning tanks are respectively communicated with the spherical rice frying device 32. Like this through 1 last rice of diaphragm pump under the control of controller at first wash the rice through the rice washing device 2 back through export 25 directly to fry in the device 3 cook and fry rice, fry rice the time through liquid seasoning jar and salt seasoning jar season, finally pack through automatic packing apparatus 4, whole in-process does not need artifical the participation, from cooking to packing whole journey need not artifical the participation, fry efficient and the taste uniformity of rice is good.

As shown in fig. 2-3, the rice washing device 2 includes a rice washing mechanism 24 disposed in the rice washing barrel 21 and driven to rotate by a rice washing motor, a water inlet 23 and a rice inlet 22 are respectively disposed on a side wall of the rice washing barrel 21, the rice inlet 22 is communicated with the rice storage barrel through a diaphragm pump 1, the water inlet 23 is communicated with a water source through a pipeline, an outlet 25 for water and rice is disposed at the bottom of the rice washing barrel 21, and the outlet 25 is communicated with the rice frying device 3. The rice washing device 2 feeds rice through the diaphragm pump 1, the diaphragm pump 1 can be controlled by a controller, the controller can adopt a PLC (programmable logic controller), preferably the PLC of S7-200 model manufactured by German Siemens company, so that the running time of the diaphragm pump 1 can be conveniently controlled by the PLC.

Advance rice and accomplish the back and intake through water inlet 23, thereby can set up the solenoid valve on the water inlet 23 equally, thereby control inflow that the break-make through PLC control solenoid valve can be convenient to according to how much control inflow of rice, furthest's using water wisely when guaranteeing the washing rice water. When water and rice enter the rice washing barrel 21, rice washing is performed.

As shown in fig. 4, the rice washing mechanism 24 includes a rice washing rotating shaft 241 driven by a rice washing motor to rotate, the rice washing rotating shaft 241 extends into the rice washing barrel 21, a plurality of rice washing rotating leaves 242 are arranged on the rice washing rotating shaft 241, the rice washing rotating leaves 242 are radially and uniformly distributed on the rice washing rotating shaft 241, and a rotating leaf assembly 243 for filtering water is arranged at the tail end of the rice washing rotating shaft 241. The rice washing rotating shaft 241 is a hollow shaft 24312, and a plurality of through holes 244 are uniformly distributed on the side wall of the rice washing rotating shaft 241.

Wash rice pivot 241 drive when washing rice and wash rice and change page or leaf 242 rotatoryly for wash rice in the rice section of thick bamboo and can fully contact with water, change page or leaf 242 rotatory stirring rice through washing rice, make the rice can wash totally, this process can be repeated many times, ensure that the rice can wash totally, wash the rice motor and pass through PLC control operating time and just reversing, make and wash a meter effect better.

During drainage, water flows into the water outlet 252, and in order to prevent the holes for filtering water at the lower part from being blocked and accelerate the drainage progress, the rice washing rotating shaft 241 is a hollow shaft 24312, and the rice washing rotating shaft 241 is provided with a drainage hole, so that the water can be drained as soon as possible.

As shown in fig. 5, the rotary blade assembly 243 includes a rice filtering rotary blade 2431 sleeved on the end of the rice washing rotary shaft 241 and a rice blocking blade 2432 sleeved on the rice washing rotary shaft 241 and disposed on the rice filtering rotary blade 2431, and a plurality of water filtering holes 2433 are uniformly distributed on the rice filtering rotary blade 2431.

When washing rice, the rice washing rotating vane rotates clockwise, and the rice blocking blade 2432 in the rice washing rotating vane also rotates clockwise (preventing rice from entering the rice filtering rotating vane 2431), and meanwhile, the rice filtering blade is pushed to rotate, so that the rice is subjected to friction stirring, and a cleaning effect is achieved. When the rice washing is finished, the electromagnetic valve is opened, and the rice washing water is discharged.

When needing to arrange rice, wash rice revolving leaf anticlockwise rotation, the fender rice blade 2432 in the washing rice revolving leaf also anticlockwise rotation (with rice direction filter rice revolving leaf 2431), keep off rice blade 2432 at this moment and scrape the rice on the filter rice revolving leaf 2431 totally, even have a small amount of rice to remain on filtering rice revolving leaf 2431, also can wash into wherein simultaneously through the water of adding appropriate amount (cooking), clear up remaining rice, with the whole leading-in fried rice device 3 of rice in.

As shown in fig. 6, the rice-blocking blade 2432 comprises a rice-blocking sheet 24321, one end of the rice-blocking sheet 24321 is fixed on a hollow tube 24322, the hollow tube 24322 is sleeved on the end of the rice-washing rotating shaft 241, and a plurality of through holes 244 are uniformly distributed on the rice-blocking sheet 24321; a clamping groove 2411 is formed in the side wall of the rice washing rotating shaft 241 along the axial direction, and the baffle 24321 is clamped in the clamping groove 2411 and extends out of the clamping groove 2411 to be in contact with the rice filtering rotary vane 2431. The hollow pipe 24322 can accelerate the drainage on one hand, and reduce the weight of the whole machine on the other hand.

The rice blocking blade 2432 is driven to rotate by a rice washing motor, the hollow tube 24322 of the rice blocking blade 2432 is sleeved in the rice washing rotating shaft 241, and the blocking sheet 24321 is clamped in the clamping groove 2411, so that the rice washing motor can drive the rotation.

As shown in fig. 7, the rice-filtering rotary vane 2431 includes a rotary vane 24311, the rotary vane 24311 is disposed on a rotary shaft, the rotary shaft is a hollow shaft 24312, and the rotary shaft is sleeved outside the hollow tube 24322. The portion of the rotating shaft contacting the stop 24321 is provided with a guide groove 243121, the rotating shaft is further provided with a stop groove 243122, and the stop groove 243122 is provided at one side of the guide groove 243121.

When washing rice, wash rice pivot 241 clockwise rotation, keep off page or leaf 24321 and arrange the opening part of draw-in groove 2411 in this moment, can be driven by draw-in groove 2411 and rotate, block rotating vane 24311's export 25, prevent that rice from falling out from rotating vane 24311's export 25 and wash a rice section of thick bamboo, also can promote rotating vane 24311 synchronous revolution simultaneously. When discharging rice, the rice washing pivot 241 anticlockwise rotation, because draw-in groove 2411's effect this moment, keep off the synchronous anticlockwise rotation of page 24321, drive promptly and keep off page 24321 and slide on guide way 243121, guide way 243121 is the chute, when keeping off page 24321 anticlockwise rotation, keep off page 24321 and rise along guide way 243121 in step, block in keeping off inslot 243122 at last card under the drive of rice washing pivot 241, that is to say, keep off page 24321 and give way rotating vane 24311's export 25 during discharging rice, conveniently discharge rice.

As shown in fig. 8, the outlet 25 is divided into a water outlet 252 and a rice outlet 251 by a partition, a separating baffle 253 is arranged at the upper end of the partition, the separating baffle 253 is driven by a separating motor to close the water outlet 252 or the rice outlet 251, the water outlet 252 is communicated with a sewer through a pipeline, and a control valve 254 is arranged on the pipeline. The control valve 254 is an electromagnetic valve, and due to the control of the PLC, the separation baffle 253 is driven by the separation motor to open to one side of the rice outlet 251 during water discharge to seal the rice outlet 251 so as to prevent rice washing water from falling into the rice frying device 3, and when rice is discharged, the separation baffle 253 is driven by the separation motor to open to one side of the water outlet 252 so as to seal the water outlet 252 so as to prevent the electromagnetic valve from being damaged due to the fact that rice enters the water outlet 252 by mistake and is blocked.

As shown in fig. 9-10, the rice frying device 3 comprises a barrel-shaped rice frying device 31 communicated with a rice outlet 251 and a ball-shaped rice frying device 32 communicated with the barrel-shaped rice frying device 31, wherein the barrel-shaped rice frying device 31 is communicated with the ball-shaped rice frying device 32 through a rice frying quantitative adding device 33; firstly, the rice discharged from the rice washing cylinder is cooked into rice through the barrel-shaped rice frying device 31, then the rice is cooled in the barrel-shaped rice frying device 31, and the rice is primarily fried to prevent the rice from being adhered to the inner wall of the barrel-shaped rice frying device 31, further reduce the water content of the rice and prolong the shelf life of the rice.

The rice is fed into the quantitative adding device after being primarily fried by the barrel-shaped rice frying device 31, and because the barrel-shaped rice frying device 31 cooks more rice at one time, redundant rice is stored on the quantitative adding device. When a customer needs to fry rice, the rice which is fried initially in the quantitative adding device falls into the spherical rice frying device 32 according to the weight for re-frying, and the re-frying is mainly to add various auxiliary materials and seasonings.

Because only one spherical rice frying device 32 is not efficient in re-frying, a plurality of spherical rice frying devices 32 can be arranged in the automatic rice washing device, so that the re-frying efficiency is improved. The rice frying device 3 and the at least two spherical rice frying devices 32 communicated with the barrel-shaped rice frying device 31, a rice frying and equally dividing device 311 is arranged between the at least two spherical rice frying devices 32 and the rice frying and quantitatively adding device 33, and the rice frying in the rice frying and quantitatively adding device 33 is respectively added into the at least two spherical rice frying devices 32 through the rice frying and equally dividing device 311. The rice from the quantitative adding device firstly falls into the fried rice evenly-dividing device 311, and the fried rice evenly-dividing device 311 conveys the fried rice to each spherical fried rice device 32 in portions, so that the repeated frying efficiency is increased, and the whole fried rice efficiency is increased.

As shown in fig. 11, the quantitative rice frying adding device 33 includes a hopper 331, the hopper 331 includes an upper feeding port communicated with the barrel-shaped rice frying device 31 and a lower feeding port communicated with the ball-shaped rice frying device 32, and an equal adding mechanism 332 is provided in the hopper 331; the equal-portion adding mechanism 332 comprises a material distributing shaft which is fixed on the side wall of the hopper 331 and driven by an equal-portion motor, a plurality of equal-portion blades are uniformly distributed on the material distributing shaft, and the equal-portion blades are radially arranged on the material distributing shaft by taking the axis of the material distributing shaft as the center. As the aliquot adding mechanism 332 rotates, the amount of rice that falls between the aliquot blades is approximately the same. Therefore, the rotation angle of the equal part adding mechanism 332 controlled by the PLC can be used for controlling the quantity of the falling rice noodles.

As shown in fig. 12, the barrel-shaped rice frying device 31 includes a fixing frame 312 disposed on the frame, a rice frying barrel is disposed on the fixing frame 312, and a barrel rotating motor 313 for driving the rice frying barrel to rotate is disposed on the fixing frame 312; a rotatable barrel cover 314 is arranged at the inlet of the rice frying barrel, rice frying rotary teeth 315 which are used for frying rice and are driven by a primary frying motor 3151 to rotate in the rice frying barrel are arranged in the rice frying barrel, and heating wires 316 are uniformly distributed at the bottom of the rice frying barrel.

During cooking, rice and a certain amount of water directly fall into the barrel-shaped rice frying device 31, the rice is cooked by heating through the heating wire 316, the barrel cover 314 is closed during cooking, the barrel cover 314 is opened for accelerating cooling of the rice after cooking, and meanwhile, a fan can be arranged above the barrel-shaped rice frying device 31 for accelerating air convection so as to accelerate cooling of the rice.

When the rice is fried for the first time, the barrel cover 314 is closed, the barrel rotating motor 313 drives the rice frying barrel to rotate for a certain angle, at the moment, the rice frying rotary teeth 315 are driven to rotate by the first frying motor 3151, and the hot wires are heated for frying. The rice frying barrel rotates a certain angle during primary frying, so that dead angles are reduced when the rice frying rotary teeth 315 rotate, and rice can be scattered better.

The barrel cover 314 comprises a fixed cover 3141 fixed at the inlet of the rice frying barrel and a movable cover 3142 matched with the fixed cover 3141; the movable cover 3142 includes a rotating shaft of the lid 314 and a cover body disposed on the fixed cover 3141, the cover body is fixed on the rotating shaft of the lid 314, and the rotating shaft of the lid 314 is driven by a motor of the lid 314 to drive the cover body to rotate to form a complete lid 314 with the fixed cover 3141.

As shown in fig. 13, the rice frying rotary teeth 315 include a primary frying shaft 3152, the primary frying shaft 3152 extends into the rice frying cylinder and is driven by the primary frying motor 3151 to rotate, and a plurality of racks are disposed on the primary frying shaft 3152 and are arranged oppositely. The rotation of the rack of the tub cover 314 can break the caked rice.

As shown in fig. 14, the spherical rice frying device 32 includes a spherical pan 321 with an upper opening, a rotary cover 323 driven by a cover opening motor 322 is disposed at the opening of the spherical pan 321, a heating device 325 is disposed in the spherical pan 321, the spherical pan 321 is driven to rotate by a spherical pan motor 324 disposed on the frame, and a frying device 326 is disposed in the spherical pan 321. During re-frying, the spherical pan 321 is driven by the spherical pan motor 324 to rotate, the stir-frying device 326 is fixed, seasoning is carried out in the spherical pan 321, and meanwhile, auxiliary materials are also added into the spherical pan 321 to be stir-fried together.

As shown in fig. 15, the spherical pan 321 is a double-layer pan, the heating devices 325 are uniformly distributed in the interlayer of the double-layer pan, the stir-frying device 326 is a plurality of baffles uniformly distributed on the inner pan body of the spherical pan 321, and the baffles are uniformly distributed on the inner pan body of the spherical pan 321.

When the rice is fried, the spherical pot motor 324 drives the spherical pot 321 to turn over up and down, the raised baffle is arranged in the rice frying machine, and when the rice is fried and turned over, the rice, auxiliary materials and seasonings in the rice frying machine can be fried uniformly. After the rice frying is finished, the rice frying machine can turn over by 180 degrees, the rotary cover 323 is opened, and the rice frying machine enters the automatic packing device 4 below along the rice frying machine.

As shown in fig. 16 to 18, the cooked rice averaging device 311 includes a funnel 3111 communicating with the barrel-shaped cooked rice device 31, the funnel 3111 slides along a rail 3112 driven by a horizontal driving motor 3113, the rail 3112 is fixed between the quantitative adding device and the ball-shaped cooked rice device 32, an outlet 25 of the funnel 3111 faces the ball-shaped cooked rice device 32, a flap 3114 driven by a flap motor is provided at the outlet 25 of the funnel 3111, and the flap motor is a stepping motor. When a plurality of spherical rice frying devices 32 are arranged, the rice frying and distributing device 311 conveys the fried rice into each spherical rice frying device 32 in portions, and a plurality of portions of the fried rice can be fried simultaneously, so that the working efficiency is improved. The track 3112 is including fixing a slide rail 31121 in the frame and with the lead screw 31122 that slide rail 31121 is parallel to, the funnel 3111 is established on lead screw 31122 and slide rail 31121, horizontal driving motor 3113 drives the lead screw 31122 and rotates, drives the funnel 3111 and follows slide rail 31121 slides. The step motor is fixed on the lateral wall of funnel 3111, step motor's axle stretches into drive in the funnel 3111 turn over the upset of page turning over baffle 3114.

As shown in fig. 9 and 19, the barrel-shaped rice frying device 31 further includes an oil adding device 317 disposed on the frame and used for adding edible oil to the barrel-shaped rice frying device 31, and the oil adding device 317 is communicated with the barrel-shaped rice frying device 31 through an oil pipe. During the primary frying, in order to prevent the rice grains from being mutually adhered, a proper amount of oil can be added, and the sticking of the rice grains can also be prevented.

As shown in fig. 19 and 20, the oil adding device 317 comprises an oil storage tank 3171, a feeding port 3172 is arranged on the side wall of the oil storage tank 3171, a screw 3175 driven by a motor 3174 is arranged in the oil storage tank 3171, the screw 3175 is fixed on a shaft, and the shaft penetrates through the oil storage tank 3171 and is driven by the motor 3174 to rotate; an oil outlet is formed in the bottom of the oil storage tank 3171 and communicated with the oil storage tank 3171, an adjusting valve 3173 is arranged on the oil outlet, and the oil outlet is communicated with the oil pipe. Need push down through electronic and international drive spiral 3175 oar oil towards adding the oil in the barrel-shaped fried rice device 31 to can be faster when using refuels, set up charge door 3172 on the relevant lateral wall in department simultaneously, the interpolation oil that can be more convenient overcomes among the prior art and adds the oil and need add the defect that this song oil interpolation device 317 disassembles.

As shown in fig. 9, an auxiliary material adding mechanism 34 is arranged above the spherical rice frying device 32, and the auxiliary material adding mechanism 34 and the seasoning adding mechanism 35 are respectively fixed on the rack; the seasoning adding mechanism 35 comprises a salt adding mechanism 351 and a plurality of sauce adding mechanisms 352 with the same structure as the oil adding device 317, the salt adding mechanism 351 is arranged right above the spherical fried rice device 32, and the salt adding mechanism 351 is fixed on the fried rice quantitative adding device 33; the auxiliary material adding mechanism 34 is fixed on the frame and is communicated with the spherical rice frying device 32 through the movable material loading mechanism 36.

As shown in fig. 21-22, the salt adding mechanism 351 includes a salt storage tank 3521 having an opening at the lower part, and a salt sprinkling mechanism 3522 is provided at the opening of the salt storage tank 3521; spill salt mechanism 3522 includes unloading cut-off board 35223, eccentric cam 35222 and spills salt motor 35221, spill salt motor 35221's epaxial cover and establish eccentric cam 35222, spill salt motor 35221 drive eccentric cam 35222 rotates, drives the material cut-off board is followed salt storage tank 3521's length direction reciprocating sliding, salt storage tank 3521's opening is equipped with keeps off the salt board, keep off the salt hole of equipartition falling on the salt board, unloading cut-off board 35223 is in the salt hole that falls is blocked or opened under eccentric cam 35222's the drive. Thus, the eccentric cam 35222 is driven by the salt spreading motor 35221 to rotate, when the eccentric cam 35222 rotates to the position where the long diameter is parallel to the blanking open plate 35223, salt is naturally spread into the round rice cooker, and when the eccentric cam 35222 rotates to the position where the short diameter is parallel to the blanking open plate 35223, the blanking open plate 35223 blocks the falling path of the salt, so that the salt cannot be spread.

As shown in fig. 23, the blanking opening plate 35223 is engaged with an opening of the salt tank 3521 and slides in a width direction of the salt tank 3521, a pair of transmission bars 35224 are provided on the blanking opening plate 35223, the pair of transmission bars 35224 are perpendicular to the blanking opening plate 35223 and closely contact a side wall of the salt tank 3521, and the eccentric cam 35222 is interposed between the pair of transmission bars 35224.

As shown in fig. 24, the auxiliary material adding mechanism 34 includes an auxiliary material adding tank 341, the lower portion of the auxiliary material adding tank 341 is provided with an equal portion adding mechanism 332, the side wall of the auxiliary material adding tank 341 is provided with an adding port for inserting the adding tank 343, the lower portion of the auxiliary material adding tank 341 is provided with an adding tank partition 342, and the auxiliary material adding tank 341 partition partitions the adding tank into a plurality of auxiliary material bins whose upper portion is communicated with the lower portion. Add the groove from adding full material back, insert the unloading baffle, impel to adding in the device, then take the unloading baffle out, the material just can enter into and add the groove shell, and electric push rod promotes the entry baffle down, prevents to add the groove and slides.

As shown in fig. 25, the feeding tank 343 includes a body 3431 surrounded by four side plates and a bottom plate 3432 detachably disposed on the body 3431, and the body 3431 is divided into a plurality of bins by partition plates 3433.

As shown in fig. 26, the auxiliary material adding mechanism 34 includes an auxiliary material adding groove 341 and a material blocking plate 3434, the material blocking plate 3434 blocks the adding opening, and the material blocking plate 3434 is pushed by an electric push rod fixed on the frame to block the adding opening. The material blocking plate 3434 comprises a bottom plate and material blocking side plates respectively arranged on two sides of the bottom plate, and a long hole 3435 for a handle arranged on the body 3431 to pass through is formed in each material blocking side plate.

As shown in fig. 9 and 27, the movable material loading mechanism 36 includes a running rail 361 fixed on the frame and a material loading slot 362 running on the running rail 361 in a sliding manner, and an auxiliary material pushing plate 363 running along the length direction of the material loading slot 362 is arranged in the material loading slot 362. The material loading groove 362 is driven by a driving mechanism to run on the running track 361, the driving mechanism comprises a material loading motor and a chain transmission assembly driven by the material loading motor, and the material loading groove 362 is arranged on the chain transmission assembly and driven by the chain transmission assembly to run on the running track 361. Therefore, the required ingredients are loaded into the trough, and the loading trough 362 can push all the required ingredients into the spherical rice frying device 32 after being prepared at one time, so that the rice frying efficiency is accelerated.

As shown in fig. 28, a push plate slide rail 364 arranged along the length direction of the side wall is arranged on the side wall of the material carrying groove 362, the push plate is sleeved on the push plate slide rail 364, and a vertical groove for the side wall to pass through is arranged on the portion of the push plate corresponding to the side wall of the material carrying groove 362. The end of the loading groove 362 is provided with an inclined plate 365 facing the ball-shaped rice frying device 32. Interference of the slide rail 31121 is prevented at the time of pushing.

As shown in fig. 29, the automatic packaging device 4 includes a conveyor belt 41 fixed on the frame, the conveyor belt 41 is disposed right below the spherical pan 321, two ends of the conveyor belt 41 are respectively provided with a lunch box falling device 42 and a lunch box transferring device 43, and the conveyor belt 41 transfers the lunch boxes into a capping device 44 through the lunch box transferring device 43.

As shown in fig. 30, the lunch box dropping device 42 includes a lunch box storage box 421, and a blanking mechanism 422 is provided in the lunch box storage box 421; unloading mechanism 422 is including locating in the lunch-box deposit case 421 a pair of unloading lead screw 31122 that is driven by the unloading motor respectively, and is a pair of lead screw 31122 revolves to the opposite, unloading lead screw 31122 is laid along the lunch-box deposit case 421 direction of height, and the lunch-box is arranged in between two unloading lead screws 31122, along with lead screw 31122 rotatory downstream. Firstly, the lead screw 31122 drives the lunch box to fall onto the conveyor belt 41, and the lunch box is firstly conveyed to the lower part of the spherical pot 321 by the conveyor belt 41, and the spherical pot 321 conveys the processed fried rice onto the lunch box conveying device through the conveyor belt 41 and conveys the processed fried rice into the capping device 44 through the lunch box conveying device 43.

As shown in fig. 31-32, the lunch box transferring device 43 includes a main transmission member 432 driven by a transferring motor and a sub transmission member 433 arranged on the rack, the main transmission member 432 drives the sub transmission member 433 to rotate through a chain, a transferring platform 431 is fixed on the chain, and the transferring platform 431 ascends out of the capping device 44 along with the chain transmission. The transferring platform 431 comprises a supporting plate 4311, wherein a transferring roller 4312 is arranged on the supporting plate 4311, and the transferring roller 4312 is driven by a roller motor 4314; the supporting plate 4311 is provided with a containing groove, and the transferring roller 4312 is arranged in the containing groove and driven by a roller motor 4314 to rotate in the containing groove. During transportation, the transportation roller 4312 rotates to transport the lunch box loaded with the fried rice onto the supporting plate 4311 until the lunch box touches the limiting column 4313. The transportation platform 431 is provided with a limiting device, the limiting device comprises a plurality of limiting columns 4313, the limiting columns 4313 are arranged on one side, close to the chain, of the supporting plate 4311, and a limiting column 4313 is arranged between the transportation roller shafts 4312.

As shown in fig. 33 to 34, the capping device 44 includes a lower cap device 441 fixed to the frame and having the same structure as the feeding mechanism 422 in the lunch box storage box 421, and a capping assembly 442 provided below the lower cap device 441, wherein a capping platform 443 is provided below the capping assembly 442, and the capping platform 443 is communicated with the lunch box transfer device 43. The capping assembly 442 includes a capping roller 4421 disposed below the lower capping device 441, a pair of capping plates 4422 driven by a platen motor is disposed on one side of the capping roller 4421, and the capping plates 4422 are disposed on one side of the capping roller 4421 away from the capping platform 443. The gland platform 443 comprises a base platform and a conveying roller arranged on the base platform, and positioning columns 4423 are arranged on two sides of the conveying roller. When the lunch box is covered, the lunch box is firstly conveyed to the position below the covering device 44, a cover falls on the lunch box through the lower covering device 441 at the moment, the cover pressing plate 4422 presses the two sides of the cover downwards to the opening of the lunch box, so that the two sides of the cover are tightly connected with the lunch box, at the moment, the horizontal pushing device arranged on the covering device 44 pushes out the lunch box, and when the lunch box is pushed out through the cover pressing roller 4421, the cover is pressed for the second time through the cover pressing roller 4421, so that the whole cover is tightly connected with the lunch box, and the packaging process is completed.

The above embodiments are only preferred embodiments of the present invention, and the protection scope of the present invention cannot be limited thereby, and any insubstantial changes and substitutions made by those skilled in the art based on the present invention are all within the protection scope of the present invention.

Claims (10)

1. The utility model provides an automatic wash rice device, through diaphragm pump and storage rice bucket intercommunication, its characterized in that: including locating in washing the rice bucket and by washing the rotatory rice mechanism of washing of rice motor drive, wash and be equipped with the water inlet on the lateral wall of rice bucket respectively and advance a meter mouth, advance a meter mouth through the diaphragm pump with store up rice bucket intercommunication, the water inlet passes through pipeline and water source intercommunication, the bottom of washing the rice bucket is equipped with the export that is used for going out water and goes out rice.

2. An automatic rice washing device according to claim 1, characterized in that: the rice washing mechanism comprises a rice washing rotating shaft driven to rotate by a rice washing motor, the rice washing rotating shaft extends into the rice washing barrel, and a plurality of rice washing rotating leaves are arranged on the rice washing rotating shaft.

3. An automatic rice washing device according to claim 2, characterized in that: the plurality of rice washing rotating blades are radially and uniformly distributed on the rice washing rotating shaft, and the tail end of the rice washing rotating shaft is provided with a rotating blade component for filtering water.

4. An automatic rice washing device according to claim 3, characterized in that: the rice washing rotating shaft is a hollow shaft, and a plurality of through holes are uniformly distributed in the side wall of the rice washing rotating shaft.

5. An automatic rice washing device according to claim 3, characterized in that: the rotary blade component comprises a rice filtering rotary blade and a rice blocking blade, wherein the rice filtering rotary blade is sleeved at the tail end of the rice washing rotary shaft, the rice washing rotary shaft is sleeved with the rice blocking blade, the rice filtering rotary blade is arranged on the rice filtering rotary blade, and a plurality of water filtering holes are uniformly distributed in the rice filtering rotary blade.

6. An automatic rice washing device according to claim 5, characterized in that: the rice-blocking blades comprise blocking leaves, one end of each blocking leaf is fixed on a hollow pipe, the hollow pipe is sleeved at the tail end of the rice-washing rotating shaft, and a plurality of through holes are uniformly distributed in each blocking leaf;

a clamping groove is formed in the side wall of the rice washing rotating shaft along the axis direction, and the blocking sheet is clamped in the clamping groove and extends out of the clamping groove to be contacted with the rice filtering rotary vane.

7. An automatic rice washing device according to claim 6, characterized in that: the rice filtering rotary vane comprises a rotary vane, the rotary vane is arranged on a rotary shaft, the rotary shaft is a hollow shaft, and the rotary shaft is sleeved on the outer side of the hollow pipe.

8. An automatic rice washing device according to claim 7, characterized in that: the part of the rotating shaft, which is in contact with the blocking leaf, is provided with a guide groove, the rotating shaft is also provided with a blocking groove, and the blocking groove is arranged on one side of the guide groove.

9. An automatic rice washing device according to claim 1, characterized in that: the export is divided into delivery port and play rice mouth by the baffle, the upper end of baffle is equipped with a separation baffle, separation baffle seals delivery port or play rice mouth by the drive of separation motor, the delivery port passes through pipeline and sewer intercommunication, is equipped with the control valve on the pipeline.

10. The utility model provides a machine is sold to fried rice by oneself which characterized in that: an automatic rice washing apparatus comprising any one of claims 1 to 9.

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