CN216302149U - Storage device is used in rice processing with drying function - Google Patents

Abstract

The utility model discloses a storage device with a drying function for rice processing; belongs to the technical field of rice processing equipment; the device is technically characterized by comprising a base and a storage box, wherein a sealed feeding plate is arranged at the top end of the storage box, a discharge cone is arranged at the bottom in the storage box, and the storage box is divided into a plurality of storage cavities through vertical partition plates; a first feeding pipe is arranged on the sealed feeding plate at the top of each storage cavity, a feeding cover is arranged at the top of the sealed feeding plate, a second feeding pipe is arranged at the top of the feeding cover, and a separating feeding mechanism is arranged in the feeding cover between each first feeding pipe and each second feeding pipe; a stirring shaft and a stirring rod are arranged in each storage cavity, and a rotary driving mechanism is arranged in the storage box at the bottom of the discharge cone; air inlet cavities are arranged in the stirring shaft and the stirring rod, air outlet holes are arranged on the stirring rod, and a hot air drying mechanism is arranged in the storage tank at the bottom of the discharge cone; the utility model aims to provide a storage device for rice processing, which has a compact structure, is convenient to use and has a drying function.

Description

Storage device is used in rice processing with drying function

Technical Field

The present invention relates to a storage device for rice processing, and more particularly, to a storage device for rice processing having a drying function.

Background

The rice is a finished product prepared by the working procedures of rice cleaning, rice hulling, rice milling, finished product finishing and the like. The embryo and aleurone layers of the rice contain nearly 64% of rice nutrition and more than 90% of nutrient elements needed by human body. The rice has the effects of tonifying middle-jiao and Qi, strengthening spleen and stomach, replenishing vital essence and strengthening will, and the like, is entitled as the first five cereals, is a main food crop in China, occupies about one fourth of the cultivation area of the food crop, and has rice as staple food in half of the population in the world. The raw material rice is delivered to a factory after being inspected and stored in a special warehouse. The rice processing is carried out in a rice workshop. Firstly, cleaning the paddy, namely, cleaning various impurities possibly mixed in the paddy in the processes of growth, harvesting, storage and transportation; then husking the rice to obtain brown rice, wherein the process is commonly called husking; the next procedure is 'rice milling', which is one of the most important procedures in the rice processing, namely, the removal of the cortex of the brown rice to prepare the white rice meeting the quality requirement. The rice needs to be stored before sale, and because the endosperm of the rice is directly exposed outside, the rice is easily affected by external environment conditions such as damp and heat and is easy to absorb moisture, so that the rice is heated and goes bad, and the rice becomes mildewed and discolored.

Traditional rice storage warehouse piles up the rice inside the warehouse when storing the rice, because the endosperm directly exposes outside, easily receives the influence of environmental conditions such as external damp and hot, the easy moisture absorption arouses to generate heat rotten, reduce the rice quality, and the rice of storing the storehouse bottom is owing to be few with the outside air contact, so the heat of storing the storehouse bottom rice can not distribute, the rice mildenes and rot easily, do not handle for a long time after mildenes and rot and can cause around the rice of great on a large scale to take place to milden and rot.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a storage device for rice processing with a drying function, which has a compact structure, is convenient to use and has a good effect in order to overcome the defects of the prior art.

The technical scheme of the utility model is realized as follows: a storage device with a drying function for rice processing comprises a base, wherein a storage box is arranged at the top of the base, a plurality of vertical partition plates are uniformly distributed in the storage box at intervals along the radial direction, a sealing feeding plate is arranged at the top end of the storage box, a discharging cone is horizontally arranged in the storage box close to the bottom, and the interior of the storage box between the sealing feeding plate and the discharging cone is divided into a plurality of storage cavities through the vertical partition plates; the sealed feeding plate corresponding to the top of each storage cavity is provided with a first feeding pipe, and the side wall of the storage box corresponding to the bottom of each storage cavity is provided with a discharging pipe matched with the discharging cone.

A matched feeding cover is arranged at the top of the sealed feeding plate, a second feeding pipe is arranged at the top of the feeding cover, and a separated feeding mechanism which is communicated and used for feeding and sealing each storage cavity is arranged in the feeding cover between each first feeding pipe and each second feeding pipe; stirring shafts are vertically arranged in the storage cavities, a plurality of stirring rods are axially arranged on the stirring shafts at intervals, and a rotary driving mechanism connected with the stirring shafts is arranged in the storage box at the bottom of the discharge cone; air inlet cavities communicated with each other are arranged in the stirring shaft and the stirring rod, a plurality of air outlet holes are arranged on the stirring rod, and hot air drying mechanisms communicated with the air inlet cavities are arranged in the storage tank at the bottom of the discharge cone.

In the storage device for rice processing with drying function, the side wall of the storage box at the top of each storage cavity is connected with a vacuumizing pipe in a conduction mode, the vacuumizing pipe is provided with an electromagnetic valve, and the vacuumizing pipe is connected with an external vacuumizing device.

In the foretell storage device for rice processing with drying function, separate feed mechanism and include along vertical setting in the feeding lid under the second inlet pipe and with the partition inlet pipe that each first inlet pipe is linked together, be provided with a plurality of vertical feeding baffles along radial interval in separating the inlet pipe, separate the inlet pipe inside through each vertical feeding baffle separate for be linked together and the feeding chamber of one-to-one with each first inlet pipe feed end.

A funnel-shaped sealing gap is formed between the feeding end at the top of the separated feeding pipe and the discharging end at the bottom of the second feeding pipe, telescopic cylinders which are in one-to-one correspondence with the feeding cavities are obliquely arranged at the top of a feeding cover outside the sealing gap from outside to inside, sealing blocks which are matched with the sealing gap are arranged at the free ends of piston rods of the telescopic cylinders, sealing grooves which are in one-to-one correspondence with the feeding cavities are arranged at the top of each vertical feeding baffle plate and the inner wall of the top end of the separated feeding pipe, and sealing gaskets which are matched with the sealing grooves are arranged at the bottom of each sealing block; the top of the separation feeding pipe is provided with a lifting stop mechanism which is matched with each sealing block and is used for preventing rice from leaking from the sealing gap when the sealing block is opened.

In foretell storage device for rice processing with drying function, lift stock stop includes along vertical setting in the separation inlet pipe top in each seal groove outside and with each sealed piece matched with lift spout, is provided with the lift spring bottom the lift spout, is provided with the lifter plate in the lift spout at lift spring top, be provided with along length direction on the lifter plate top with sealed piece bottom matched with sealed cylinder.

In foretell storage device for rice processing with drying function, be provided with horizontal baffle in the bin of play awl bottom, the bin between horizontal baffle and the play awl is inside to be separated through vertical baffle for the dry chamber with each storage chamber one-to-one, and the bin of horizontal baffle bottom is inside to be separated through vertical baffle for the electrical apparatus chamber with each dry chamber one-to-one.

The rotary driving mechanism comprises driving motors arranged in the electric appliance cavities, the bottom end of the stirring shaft extends into the electric appliance cavities and is connected with the output ends of the driving motors, the stirring shaft is connected with the discharge cone and the horizontal partition plate through bearings, a storage battery electrically connected with the driving motors is arranged in the electric appliance cavities, ventilation pipes are arranged on the side walls of the storage boxes corresponding to the electric appliance cavities, and electromagnetic valves are arranged on the ventilation pipes; the hot air drying mechanism is arranged between the drying cavity and the electric appliance cavity.

In foretell storage device for rice processing with drying function, hot air drying mechanism is including setting up a plurality of inlet ports that are linked together on the (mixing) shaft in dry intracavity and with the chamber of admitting air, is provided with annular baffle along vertical in each electrical apparatus intracavity side, forms the hot-blast chamber in annular baffle inboard, is provided with the air-supply line along vertical in hot-blast intracavity, and air-supply line exit end switch-on connection has the play tuber pipe that is linked together with each dry chamber, is provided with the solenoid valve on going out the tuber pipe, is provided with the air heater that is linked together with the air-supply line entrance point bottom the bin.

After the structure is adopted, the interior of the storage box between the sealed feeding plate and the discharging cone is divided into the plurality of storage cavities which are not interfered with each other through the vertical partition plates, so that rice can be conveniently stored and taken in batches, moisture in external air in the storage and taking processes is prevented from entering the storage box to cause large-scale mildewing of residual rice, and the storage effect and the quality of the rice are ensured. Go out the material awl and cooperate and can conveniently store the rice of intracavity and take out entirely with the discharging pipe. The separation feeding mechanism can separate feeding when feeding, improves feeding efficiency, can guarantee that each storage cavity is in a sealing state, and prevents that external water vapor from entering into other storage cavities in the feeding process to cause rice to mildew. Rotatory actuating mechanism drives (mixing) shaft and puddler and stirs the rice that each stored the intracavity, can prevent effectively that the rice from taking place to harden and lead to the ejection of compact difficulty. Air inlet cavity, venthole and hot air drying mechanism mutually support, can let in dry steam and carry out the drying to the rice of storing the intracavity, guarantee to store the quality of rice.

Drawings

The utility model will be further described in detail with reference to examples of embodiments shown in the drawings to which, however, the utility model is not restricted.

FIG. 1 is a perspective view of the present invention;

FIG. 2 is a schematic structural view of the present invention;

FIG. 3 is a cross-sectional view taken at A-A of FIG. 2;

FIG. 4 is an enlarged view of a portion of FIG. 2 at B;

FIG. 5 is a schematic view of the structure of the divided feeding mechanism of the present invention;

fig. 6 is a cross-sectional view at C-C in fig. 5.

In the figure: 1. a base; 2. a storage tank; 2a, a vertical clapboard; 2b, sealing the feeding plate; 2c, a discharge cone; 2d, a storage cavity; 2e, a first feeding pipe; 2f, a discharge pipe; 2g, a drying cavity; 2h, an electric appliance cavity; 3. a feeding cover; 3a, a second feeding pipe; 4. a separate feed mechanism; 4a, separating a feeding pipe; 4b, vertical feeding baffle plates; 4c, a feeding cavity; 4d, sealing the gap; 4e, a telescopic cylinder; 4f, sealing the block; 4g, sealing grooves; 4h, sealing gaskets; 5. a stirring shaft; 5a, a stirring rod; 5b, an air inlet cavity; 5c, air outlet holes; 6. a rotation driving mechanism; 6a, driving a motor; 6b, a storage battery; 6c, a vent pipe; 7. a hot air drying mechanism; 7a, an air inlet hole; 7b, an annular partition plate; 7c, a hot air cavity; 7d, an air inlet pipe; 7e, an air outlet pipe; 7f, a hot air blower; 8. vacuumizing a tube; 9. a lifting stop mechanism; 9a, a lifting chute; 9b, a lifting spring; 9c, a lifting plate; 9d, sealing the roller; 10. a horizontal partition.

Detailed Description

Referring to fig. 1 to 6, the storage device with drying function for rice processing of the utility model comprises a base 1, a storage tank 2 is arranged on the top of the base 1, a plurality of vertical partition plates 2a are uniformly distributed in the storage tank 2 along the radial direction at intervals, a sealing feeding plate 2b is arranged on the top end of the storage tank 2, a discharging cone 2c is horizontally arranged in the storage tank 2 near the bottom, and the interior of the storage tank 2 between the sealing feeding plate 2b and the discharging cone 2c is divided into a plurality of storage cavities 2d by the vertical partition plates 2 a; vertical baffle 2a will seal 2b of feed plate and go out bin 2 internal partitioning between the awl 2c for a plurality of each other noninterference store chamber 2d, can conveniently store in batches and take the rice, prevent to store and get and cause remaining rice to take place to go mildy on a large scale in the moisture in the external air gets into bin 2 in the use, guarantee the effect of storing and the quality of rice. A first feeding pipe 2e is arranged on the sealed feeding plate 2b corresponding to the top of each storage cavity 2d, and a discharging pipe 2f matched with the discharging cone 2c is arranged on the side wall of the storage box 2 corresponding to the bottom of each storage cavity 2 d; go out material awl 2c and discharging pipe 2f and cooperate and can conveniently store the rice in the chamber 2d and take out entirely.

Further, a matched feeding cover 3 is arranged at the top of the sealed feeding plate 2b, a second feeding pipe 3a is arranged at the top of the feeding cover 3, and a separated feeding mechanism 4 which is communicated and used for feeding and sealing each storage cavity 2d is arranged in the feeding cover 3 between each first feeding pipe 2e and each second feeding pipe 3 a; stirring shafts 5 are vertically arranged in the storage cavities 2d, a plurality of stirring rods 5a are axially arranged on the stirring shafts 5 at intervals, and rotary driving mechanisms 6 connected with the stirring shafts 5 are arranged in the storage box 2 at the bottom of the discharge cone 2 c; air inlet cavities 5b communicated with each other are arranged in the stirring shaft 5 and the stirring rod 5a, a plurality of air outlet holes 5c are arranged on the stirring rod 5a, and a hot air drying mechanism 7 communicated with each air inlet cavity 5b is arranged in the storage tank 2 at the bottom of the discharge cone 2 c.

Preferably, an evacuation tube 8 is conductively connected to the sidewall of the storage box 2 at the top of each storage cavity 2d, an electromagnetic valve is disposed on the evacuation tube 8, and the evacuation tube 8 is connected to an external evacuation device. The evacuation pipe 8 can carry out the evacuation to each storage chamber 2d, carries out the vacuum to the rice and stores, further guarantees to store the quality of rice, improves the effect of storing.

Preferably, the separating and feeding mechanism 4 comprises a separating feeding pipe 4a vertically arranged in the feeding cover 3 under the second feeding pipe 3a and communicated with the first feeding pipes 2e, a plurality of vertical feeding baffle plates 4b are radially arranged in the separating feeding pipe 4a at intervals, and the inside of the separating feeding pipe 4a is separated into feeding cavities 4c communicated with the feeding ends of the first feeding pipes 2e and corresponding to one another through the vertical feeding baffle plates 4 b. Vertical feeding baffle 4b will separate inlet pipe 4a internal partitioning for a plurality of feeding chambeies 4c, can separate the feeding to the rice when the feeding, need not to switch the feed inlet and carry out the feeding, effectively improves the efficiency of feeding.

Furthermore, a funnel-shaped seal gap 4d is formed between the top feed end of the separated feed pipe 4a and the bottom discharge end of the second feed pipe 3a, telescopic cylinders 4e which are in one-to-one correspondence with the feed cavities 4c are obliquely arranged on the top of the feed cover 3 outside the seal gap 4d from outside to inside, seal blocks 4f which are matched with the seal gap 4d are arranged at the free ends of piston rods of the telescopic cylinders 4e, seal grooves 4g which are in one-to-one correspondence with the feed cavities 4c are arranged on the top of each vertical feed baffle 4b and the inner wall of the top end of the separated feed pipe 4a, and seal gaskets 4h which are matched with the seal grooves 4g are arranged at the bottoms of the seal blocks 4 f; a lifting stop gauge 9 which is matched with each sealing block 4f and is used for preventing the rice from leaking from the sealing gap 4d when the sealing blocks 4f are opened is arranged at the top of the separation feeding pipe 4 a.

The telescopic cylinder 4e drives the sealing block 4f to be matched with the sealing gap 4d and the sealing groove 4g to seal the feeding end of each feeding cavity 4c, when one or more feeding cavities 4c are fed, all the other feeding cavities 4c and the storage cavity 2d are in a sealing state, and therefore rice mildew caused when external water vapor enters all the other storage cavities 2d in the feeding process is prevented, and the product quality is guaranteed.

Preferably, the lifting material blocking mechanism 9 comprises a lifting chute 9a which is vertically arranged at the top of the separation feeding pipe 4a outside each sealing groove 4g and is matched with each sealing block 4f, a lifting spring 9b is arranged at the bottom of the lifting chute 9a, a lifting plate 9c is arranged in the lifting chute 9a at the top of the lifting spring 9b, and a sealing roller 9d which is matched with the bottom of the sealing block 4f is arranged at the top end of the lifting plate 9c along the length direction.

When telescopic cylinder 4e drives sealed piece 4f along sealed clearance 4d slope removal, lifter plate 9c slides in lift spout 9a under the spring action of lift spring 9b, makes sealed cylinder 9d rise and all the time with sealed piece 4f bottom cooperation contact, can effectively prevent that the rice from running out from sealed clearance 4d when sealed piece 4f is opened, causes the rice extravagant.

Preferably, be provided with horizontal baffle 10 in the bin 2 of play awl 2c bottom, bin 2 between horizontal baffle 10 and the play awl 2c is inside to be separated through vertical baffle 2a for the dry chamber 2g with each storage chamber 2d one-to-one, and bin 2 of horizontal baffle 10 bottom is inside to be separated through vertical baffle 2a for the electrical apparatus chamber 2h with each dry chamber 2g one-to-one.

Mutually support between horizontal baffle 10 and vertical baffle 2a, can separate the bin 2 of play awl 2c bottom for dry chamber 2g and the electrical apparatus chamber 2h with each storage chamber 2d one-to-one, guarantee that each storage chamber 2 d's sealing performance each stores mutually noninterference between the chamber 2d simultaneously, avoid one of them rice in storing chamber 2d to take place to milden and rot the back mould and pass through in all the other each storage chambers 2d, cause huge loss.

The rotary driving mechanism 6 comprises a driving motor 6a arranged in each electric appliance cavity 2h, the bottom end of the stirring shaft 5 extends into the electric appliance cavity 2h and is connected with the output end of the driving motor 6a, the stirring shaft 5 is connected with the discharge cone 2c and the horizontal partition plate 10 through a bearing, a storage battery 6b electrically connected with the driving motor 6a is arranged in the electric appliance cavity 2h, a ventilation pipe 6c is arranged on the side wall of the storage box 2 corresponding to each electric appliance cavity 2h, and an electromagnetic valve is arranged on the ventilation pipe 6 c; the hot air drying mechanism 7 is arranged between the drying cavity 2g and the electric appliance cavity 2 h.

The driving motor 6a drives the stirring shaft 5 to rotate, the stirring shaft 5 rotates to drive the stirring rod 5a to stir the rice in each storage cavity 2d, and the rice in each storage cavity 2d can be effectively prevented from hardening and causing difficulty in discharging.

Preferably, the hot air drying mechanism 7 includes a plurality of air inlet holes 7a disposed on the stirring shaft 5 in the drying cavity 2g and communicated with the air inlet cavity 5b, an annular partition 7b is vertically disposed inside each electrical appliance cavity 2h, a hot air cavity 7c is formed inside each annular partition 7b, an air inlet pipe 7d is vertically disposed inside each hot air cavity 7c, an outlet end of each air inlet pipe 7d is connected to an air outlet pipe 7e communicated with each drying cavity 2g, an electromagnetic valve is disposed on each air outlet pipe 7e, and a hot air blower 7f communicated with an inlet end of each air inlet pipe 7d is disposed at the bottom of the storage box 2.

Hot-blast follow play tuber pipe 7e discharge entering drying chamber 2g behind air-supply line 7d that air heater 7f produced, the hot-air that gets into in drying chamber 2g passes through in inlet port 7a gets into (mixing) shaft 5 and the air inlet chamber 5b in the puddler 5a, dry steam enters into each storage chamber 2d from venthole 5c at last, can let in dry steam and carry out the drying to the rice in storing chamber 2d when storing the humidity grow in chamber 2d, guarantee to store the quality of rice. The storage cavity 2d with the increased humidity can be dried by opening the electromagnetic valve on the corresponding air outlet pipe 7e according to actual needs.

Preferably, a humidity sensor is disposed at the top of each storage cavity 2d, and the humidity sensor is electrically connected to an external control terminal. The humidity in each storage chamber 2d can be monitored in real time and dried as needed. Of course, the drying can also be carried out regularly directly according to the difference of seasons or climates, such as wet weather in spring.

The working principle of the utility model is as follows: when feeding, a feeding valve on the second feeding pipe 3a is opened, the storage cavity 2d which does not store rice inside is opened according to actual storage conditions after the stored rice enters from the second feeding pipe 3a, when the storage cavity 2d is opened, a telescopic cylinder 4e above the first feeding pipe 2e corresponding to the top of the storage cavity 2d is started, the telescopic cylinder 4e drives a sealing block 4f to obliquely move outwards along a sealing gap 4d, a sealing gasket 4h is separated from a sealing groove 4g, when the front end face of the sealing block 4f close to one side of the separation feeding pipe 4a and the inner side wall of the separation feeding pipe 4a are located on the same vertical plane, the telescopic cylinder 4e stops, and at the moment, a sealing roller 9d and a sealing plate block the sealing gap 4d at the bottom of the sealing block 4f under the action of a sealing spring, so that the rice is prevented from leaking; and the rest of the feeding cavities 4c and the storage cavities 2d which are not fed are in a sealed state, so that the phenomenon that the rice is mildewed due to the fact that external water vapor enters the rest of the storage cavities 2d in the feeding process is prevented, and the product quality is guaranteed.

After the feeding was accomplished, close second inlet pipe 3a, start telescopic cylinder 4e and reset, telescopic cylinder 4e drives sealed piece 4f and follows seal clearance 4d slope removal and make sealed 4h of filling up remove to cooperate with seal groove 4g, can seal feeding chamber 4c, carry out the evacuation through outside evacuating device to storage chamber 2d after the feeding after sealed, carry out the vacuum storage to the rice, further guarantee the quality of storing the rice, improve the effect of storing.

In the storage process, regularly start driving motor 6a according to the sunning degree and the storage environment of rice, driving motor 6a drives (mixing) shaft 5 and rotates, and (mixing) shaft 5 rotates and drives puddler 5a and stirs the rice in each storage chamber 2d, can prevent effectively that the rice in each storage chamber 2d from taking place to harden and lead to the ejection of compact difficulty. Simultaneously through the humidity transducer real-time supervision in each storage chamber 2d of each storage chamber 2d humidity change condition, start hot-blast machine 7f as required and carry out the drying to the storage chamber 2d of humidity grow, guarantee to store the quality of rice.

The above-mentioned embodiments are only for convenience of description, and are not intended to limit the present invention in any way, and those skilled in the art will understand that the technical features of the present invention can be modified or changed by other equivalent embodiments without departing from the scope of the present invention.

Claims (6)

1. A storage device with a drying function for rice processing comprises a base (1), wherein a storage box (2) is arranged at the top of the base (1), and is characterized in that a plurality of vertical partition plates (2a) are uniformly distributed in the storage box (2) along the radial direction at intervals, a sealed feeding plate (2b) is arranged at the top end of the storage box (2), a discharging cone (2c) is horizontally arranged in the storage box (2) close to the bottom of the storage box, and the inside of the storage box (2) between the sealed feeding plate (2b) and the discharging cone (2c) is divided into a plurality of storage cavities (2d) through the vertical partition plates (2 a); a first feeding pipe (2e) is arranged on the sealed feeding plate (2b) corresponding to the top of each storage cavity (2d), and a discharging pipe (2f) matched with the discharging cone (2c) is arranged on the side wall of the storage box (2) corresponding to the bottom of each storage cavity (2 d);

a matched feeding cover (3) is arranged at the top of the sealed feeding plate (2b), a second feeding pipe (3a) is arranged at the top of the feeding cover (3), and a separated feeding mechanism (4) which is communicated and used for feeding and sealing each storage cavity (2d) is arranged in the feeding cover (3) between each first feeding pipe (2e) and each second feeding pipe (3 a); stirring shafts (5) are vertically arranged in the storage cavities (2d), a plurality of stirring rods (5a) are axially arranged on the stirring shafts (5) at intervals, and rotary driving mechanisms (6) connected with the stirring shafts (5) are arranged in the storage box (2) at the bottom of the discharge cone (2 c); air inlet cavities (5b) communicated with each other are arranged in the stirring shaft (5) and the stirring rod (5a), a plurality of air outlet holes (5c) are arranged on the stirring rod (5a), and a hot air drying mechanism (7) communicated with each air inlet cavity (5b) is arranged in the storage box (2) at the bottom of the discharge cone (2 c).

2. The storage device for rice processing with drying function according to claim 1, wherein an evacuating pipe (8) is conductively connected to the sidewall of the storage box (2) at the top of each storage chamber (2d), an electromagnetic valve is provided on the evacuating pipe (8), and the evacuating pipe (8) is connected to an external evacuating device.

3. The storage device with the drying function for rice processing as claimed in claim 1, wherein the divided feeding mechanism (4) comprises a divided feeding pipe (4a) vertically arranged in a feeding cover (3) right below the second feeding pipe (3a) and communicated with each first feeding pipe (2e), a plurality of vertical feeding baffles (4b) are radially arranged in the divided feeding pipe (4a) at intervals, and the inside of the divided feeding pipe (4a) is divided into feeding cavities (4c) communicated with the feeding ends of the first feeding pipes (2e) and in one-to-one correspondence through the vertical feeding baffles (4 b);

a funnel-shaped sealing gap (4d) is formed between the feeding end at the top of the separated feeding pipe (4a) and the discharging end at the bottom of the second feeding pipe (3a), telescopic cylinders (4e) which are one-to-one corresponding to the feeding cavities (4c) are arranged on the top of a feeding cover (3) at the outer side of the sealing gap (4d) and downwards inclined from outside to inside, sealing blocks (4f) which are matched with the sealing gap (4d) are arranged at the free ends of piston rods of the telescopic cylinders (4e), sealing grooves (4g) which are one-to-one corresponding to the feeding cavities (4c) are arranged at the top of each vertical feeding baffle (4b) and the inner wall of the top end of the separated feeding pipe (4a), and sealing gaskets (4h) which are matched with the sealing grooves (4g) are arranged at the bottom of each sealing block (4 f); a lifting material blocking mechanism (9) which is matched with each sealing block (4f) and is used for preventing the rice from leaking from the sealing gap (4d) when the sealing blocks (4f) are opened is arranged at the top of the separation feeding pipe (4 a).

4. The storage device with the drying function for rice processing as claimed in claim 3, wherein the lifting and stopping mechanism (9) comprises a lifting chute (9a) vertically arranged at the top of the separation feeding pipe (4a) outside each sealing groove (4g) and matched with each sealing block (4f), a lifting spring (9b) is arranged at the bottom of the lifting chute (9a), a lifting plate (9c) is arranged in the lifting chute (9a) at the top of the lifting spring (9b), and a sealing roller (9d) matched with the bottom of the sealing block (4f) is arranged at the top end of the lifting plate (9c) along the length direction.

5. The storage device with the drying function for rice processing as claimed in claim 1, wherein a horizontal partition plate (10) is arranged in the storage box (2) at the bottom of the discharge cone (2c), the interior of the storage box (2) between the horizontal partition plate (10) and the discharge cone (2c) is divided into drying cavities (2g) corresponding to the storage cavities (2d) one by a vertical partition plate (2a), and the interior of the storage box (2) at the bottom of the horizontal partition plate (10) is divided into electrical appliance cavities (2h) corresponding to the drying cavities (2g) one by a vertical partition plate (2 a);

the rotary driving mechanism (6) comprises a driving motor (6a) arranged in each electric appliance cavity (2h), the bottom end of the stirring shaft (5) extends into the electric appliance cavity (2h) and is connected with the output end of the driving motor (6a), the stirring shaft (5) is connected with the discharge cone (2c) and the horizontal partition plate (10) through bearings, a storage battery (6b) electrically connected with the driving motor (6a) is arranged in the electric appliance cavity (2h), a ventilation pipe (6c) is arranged on the side wall of the storage box (2) corresponding to each electric appliance cavity (2h), and an electromagnetic valve is arranged on the ventilation pipe (6 c); the hot air drying mechanism (7) is arranged between the drying cavity (2g) and the electric appliance cavity (2 h).

6. The rice processing storage device with the drying function as claimed in claim 5, wherein the hot air drying mechanism (7) comprises a plurality of air inlet holes (7a) which are arranged on the stirring shaft (5) in the drying cavity (2g) and communicated with the air inlet cavity (5b), an annular partition plate (7b) is vertically arranged inside each electric appliance cavity (2h), an air outlet cavity (7c) is formed inside the annular partition plate (7b), an air inlet pipe (7d) is vertically arranged inside the hot air cavity (7c), the outlet end of the air inlet pipe (7d) is in conduction connection with an air outlet pipe (7e) communicated with each drying cavity (2g), an electromagnetic valve is arranged on the air outlet pipe (7e), and a hot air blower (7f) communicated with the inlet end of the air inlet pipe (7d) is arranged at the bottom of the storage box (2).

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