CN113148546B - Continuous warehouse in-out system and method - Google Patents

Abstract

The invention discloses a continuous warehouse in-and-out system of a building, which comprises a building, wherein the building comprises a plurality of layers of granaries which are arranged in parallel, a plurality of discharge holes are uniformly formed in the bottom of each layer of granary, and a continuous warehouse in-and-out system is arranged in each layer of granary; the continuous warehouse-in and warehouse-out system comprises a warehouse-in conveying pipe and a warehouse-out conveying pipe which are arranged in parallel, the warehouse-in conveying pipe is arranged at the lower part of the top plate of the grain storage warehouse, and the warehouse-out conveying pipe is arranged at the bottom of the bottom plate of the grain storage warehouse; the warehousing conveying pipe is provided with a warehousing feeding port and a warehousing discharging port, the ex-warehouse conveying pipe is provided with an ex-warehouse feeding port and an ex-warehouse discharging port, and the ex-warehouse feeding port is correspondingly matched with the feeding port. The system is divided into three layouts, namely a vertical horizontal annular layout, a vertical layout and a parallel layout in sequence, is suitable for grain in and out of a building warehouse, can greatly increase the operation efficiency of grain in and out of the warehouse, and is convenient to operate and low in cost.

Description

Continuous warehouse in-out system and method

Technical Field

The invention relates to the technical field of grain storage bins, in particular to a continuous warehouse entry and exit system and a continuous warehouse entry and exit method for a building bin.

Background

With the progress and development of the technology, the bulk grain building warehouse is selected and approved by a plurality of users as a new warehouse, the current process technology solves the continuous warehouse entering technology, the warehouse exiting technology continues to use the traditional horizontal warehouse exiting mode, the warehouse exiting operation is completed by adopting the movable grain raking machine and the movable belt conveyor, although the warehouse exiting operation of the first layer is low in efficiency, high in labor intensity and bad in operation environment, the warehouse exiting operation can also be completed, but during the second and third layer warehouse exiting operation, a plurality of devices of the movable grain raking machine and the movable belt conveyor need to be dispatched to the warehouse exiting floor, great difficulty is brought to the operation, the devices are large in size, heavy in machine body and imaginable in operation difficulty. The market urgently needs process equipment capable of solving continuous delivery operation so as to meet the normal operation requirement.

Chain endless conveyor, also called annular pipe chain conveyor, its structural configuration constitutes and includes: the conveying pipeline, the conveying chain with the disc, the driving case, the driven case, the motor reducer and the like are continuous conveying equipment for conveying powdery, small granular, small blocky and other bulk materials, and can be horizontally, obliquely and vertically conveyed in a combined manner. In the closed pipeline, the chain sheet is used as a transmission component to drive the material to move along the pipeline. When the material is conveyed horizontally, the material particles are pushed by the chain sheet in the moving direction, and when the internal friction force between the material layers is greater than the external friction force between the material and the pipe wall, the material moves forwards along with the chain sheet to form a stable material flow; when the material is conveyed vertically, the material grains inside the pipe are pushed upwards by the chain sheet, and the feeding material in the lower part prevents the material in the upper part from sliding downwards to produce lateral pressure, so that the inner friction force of the material is increased. Based on this, how to apply the advantages of the chain type ring conveyor to the warehouse entry and exit operation of the bulk grain building warehouse is a problem to be solved urgently by technical personnel in the field.

Disclosure of Invention

In view of the above, the present invention provides a continuous warehouse entry and exit system, which is divided into three layouts, namely, a vertical horizontal ring layout, a vertical layout and a parallel layout, and is suitable for grain warehouse entry and exit, and can greatly increase warehouse entry and exit operation efficiency, and is convenient to operate and low in cost.

In order to achieve the purpose, the invention adopts the following technical scheme:

a continuous warehouse in-and-out system of a building warehouse comprises the building warehouse, wherein the building warehouse comprises a plurality of layers of grain storage bins which are arranged in parallel, a plurality of discharge ports are uniformly arranged at the bottom of each layer of grain storage bin, and the continuous warehouse in-and-out system is arranged in each layer of grain storage bin;

the continuous warehousing and delivery system comprises a warehousing delivery pipe and a delivery pipe which are arranged in parallel, the warehousing delivery pipe is arranged at the lower part of the top plate of the grain storage bin, and the delivery pipe is arranged at the bottom of the bottom plate of the grain storage bin; conveying chains with discs are arranged in the warehousing conveying pipe and the ex-warehouse conveying pipe, and a driving motor drives the conveying chains to circularly move along the warehousing conveying pipe and the ex-warehouse conveying pipe;

the warehouse entry conveying pipe is provided with a warehouse entry feeding port and a warehouse entry discharging port, the warehouse exit conveying pipe is provided with a warehouse exit feeding port and a warehouse exit discharging port, and the warehouse exit feeding port and the discharging port are correspondingly matched.

Further, electric gates are arranged on the feeding outlet, the discharging inlet, the discharging outlet and the discharging outlet.

Furthermore, two ends of the delivery pipe are communicated with an L-shaped delivery pipe, the L-shaped delivery pipe comprises a vertical material pipe and a longitudinal material pipe, and two ends of the delivery pipe are respectively connected with the vertical material pipe; the side end face of the warehousing conveying pipe is provided with a warehousing feed inlet, and the middle lower end face is uniformly provided with warehousing discharge outlets; the upper end surface in the middle of the delivery pipe of the delivery warehouse is evenly provided with a material outlet and a material inlet, and the longitudinal material pipe is provided with a material outlet and a material outlet.

Further, the two ends of the warehousing conveying pipe and the two ends of the delivery pipe are connected through vertical material pipes, the upper end faces of the two sides of the warehousing conveying pipe are provided with warehousing feed inlets, the middle lower end face is uniformly provided with warehousing discharge outlets, the lower end faces of the two sides of the delivery pipe are provided with delivery discharge outlets, and the middle upper end face is uniformly provided with delivery inlets.

Furthermore, the warehousing conveying pipe and the delivery pipe are circulating pipelines, the upper end surfaces of two sides of the warehousing conveying pipe are provided with warehousing feeding ports, and the lower end surface in the middle is uniformly provided with warehousing discharging ports; the lower end surfaces of the two sides of the delivery pipe are provided with delivery outlets, and the upper end surface in the middle is uniformly provided with delivery inlets.

Furthermore, the upper end surfaces of two sides of the delivery pipe are also provided with a warehousing feed inlet, and the middle lower end surface is uniformly provided with a warehousing discharge outlet.

Furthermore, the electric gate comprises a gate frame and a speed reduction motor, sliding rails are arranged on two sides of the gate frame, a movable gate is slidably connected in the sliding rails, a threaded hole is formed in the middle of the movable gate, a screw rod is arranged at the output end of the speed reduction motor, and one end of the screw rod penetrating through the gate frame is meshed with the threaded hole.

A method for utilizing a continuous warehouse entry and exit system of a building warehouse comprises the following steps:

1) when the grain enters the barn, electric gates on a discharging port and a discharging port of the barn are closed, the grain enters a feeding port through a scraper conveyor chute, a driving motor drives a conveying chain to move, and the grain is conveyed into a grain storage barn from the discharging port of the barn, so that the barn entering operation is realized;

2) when the grain is taken out of the barn, the electric gate above the barn feeding and discharging port is closed, the electric gate on the barn discharging and feeding port, the barn discharging and discharging port and the discharging port are opened, the grain in the grain storage barn enters the barn discharging and feeding port from the discharging port and is discharged from the barn discharging port, and the barn taking operation is realized.

The invention has the beneficial effects that:

1. the invention discloses a continuous warehouse entry and exit system of a building warehouse, which applies pipe chain type conveying to warehouse entry and exit operation of the building warehouse, wherein a warehouse entry conveying pipe is arranged at the lower part of a top plate of the storage barn, a warehouse exit conveying pipe is arranged at the bottom of a floor of the storage barn, conveying chains with discs are arranged in the warehouse entry conveying pipe and the warehouse exit conveying pipe, and a driving motor drives the conveying chains to circularly move along the warehouse entry conveying pipe and the warehouse exit conveying pipe and is used for conveying grains in the conveying pipes. Three layout modes, namely vertical horizontal annular layout, vertical layout and parallel layout, are adopted, the structure is compact, multi-port feeding and multi-port discharging can be realized, a sleeve pipe chain, multi-point feeding and multi-point discharging are realized, full-closed conveying is realized, no dust overflow and leakage exist, and the device is efficient and environment-friendly; the materials can be completely conveyed and unloaded, and no residue is left in the conveying pipeline; in addition, the running speed is slow, the completeness of the materials can be ensured to the maximum extent, and the newly-increased crushing rate is low.

2. One set of equipment with vertical and horizontal annular layout can give consideration to warehousing, warehousing and distribution of materials in the warehouse of the layer, the materials can move in the vertical and horizontal directions of different dimensions (planes), and warehousing points are relatively uniform in layout.

The vertical layout structure is simple, and one set of equipment can give consideration to warehousing, delivering and distributing of the materials in the warehouse of the layer. The material can do circular motion in same dimension (plane), and a plurality of devices need to be arranged in different planes to realize the uniform arrangement of the feeding points.

One set of equipment in horizontal annular layout can give consideration to warehousing, warehousing and distribution of materials in the warehouse on the layer and the lower layer. The materials can do circular motion in the same dimension (plane), the layout of the feeding points and the discharging points is uniform, and one set of equipment can realize warehousing, warehousing and distribution of the warehouse on the layer and the warehouse on the lower layer.

Drawings

FIG. 1 is a schematic structural view of example 1 of the present invention;

FIG. 2 is a schematic diagram of the distribution structure of the embodiment 1 of the present invention in the building warehouse 1;

FIG. 3 is a schematic structural view of example 2 of the present invention;

FIG. 4 is a schematic diagram of the distribution structure of the embodiment 2 of the present invention in the building warehouse 1;

FIG. 5 is a schematic structural view of example 3 of the present invention;

FIG. 6 is a schematic diagram of the distribution structure of the embodiment 3 of the present invention in the building warehouse 1;

fig. 7 is a schematic structural view of the electric shutter.

In the figure: 1-building bin, 2-grain storage bin, 3-discharge port, 4-L-shaped conveying pipe, 5-warehousing conveying pipe, 6-warehousing conveying pipe, 7-warehousing inlet, 8-warehousing discharge port, 9-warehousing inlet, 10-warehousing outlet, 11-door frame, 12-slide rail, 13-movable gate, 14-speed reducing motor, 15-screw rod, 16-threaded hole and 17-rubber pad.

Detailed Description

The invention is further described below with reference to the figures and examples.

This application is for solving building storehouse grain business turn over storehouse, designs a continuous business turn over storehouse system, is applicable to 1 business turn over storehouse operation in building storehouse, as shown in figure 2, 4, 6, and building storehouse 1 includes the storage grain bin 2 that the multilayer parallel was arranged, and 2 bottoms (on the floor) in the storage grain bin of every layer evenly set up a plurality of discharge gates 3, all set up continuous business turn over storehouse system in the storage grain bin 2 of every layer.

The continuous warehouse-in and warehouse-out system comprises a warehouse-in conveying pipe 5 and a warehouse-out conveying pipe 6 which are arranged in parallel, the warehouse-in conveying pipe 5 is arranged at the lower part of a top plate of the grain storage warehouse 2, the warehouse-out conveying pipe 6 is arranged at the bottom of a bottom plate (floor) of the grain storage warehouse 2, and the mounting mode is that a hoop is adopted for fixing and mounting; conveying chains with discs are arranged in the warehousing conveying pipe 5 and the ex-warehouse conveying pipe 6, and transmission chain wheels and driving motors are arranged on the outer sides of the warehousing conveying pipe and meshed with the conveying chains, so that the transmission chain wheels are driven by a driving motor spindle to rotate so as to drive the conveying chains to move forwards, grains move along the conveying chains under the action of the discs, and accordingly, the grains are transferred and conveyed.

For the operation of better adaptation building storehouse business turn over storehouse, this application is passed in and out storehouse system in succession and is adopted three kinds of overall arrangement modes, perpendicular horizontal ring shape overall arrangement, perpendicular overall arrangement and parallel overall arrangement, see following embodiment description, wherein the corner of three kinds of overall arrangements is provided with the corner sprocket, and the corner sprocket meshes with the conveying chain, drives rotatoryly through the motor spindle to can change the direction of transmission of conveying chain.

Example 1

As shown in fig. 1 and fig. 2, a warehousing delivery pipe 5 and a delivery pipe 6 are arranged in parallel, two ends of the delivery pipe 6 are communicated with an L-shaped delivery pipe 4, the L-shaped delivery pipe 4 comprises a vertical pipe 4-1 and a longitudinal pipe 4-2, two ends of the warehousing delivery pipe 5 are respectively connected with the vertical pipe 4-1 to form a circulating delivery pipe, and corner sprockets are arranged at corners of the warehousing delivery pipe and used for changing the transmission direction of the delivery pipe; the driving motor is arranged at a vertical material pipe 4-1 of one L-shaped material conveying pipe 4 and used for driving a conveying chain with a disc in the material conveying pipe to circularly move;

the end surface of the side edge of the warehousing material conveying pipe 5 is provided with a warehousing feed inlet 7, wherein the warehousing feed inlet 7 is arranged at the outer side of the grain storage bin 2, so that feeding is facilitated; the lower terminal surface in the middle evenly sets up into storehouse discharge gate 8, and the scraper conveyor elephant trunk is scraped in the intercommunication of feed inlet 7 in the storehouse for in sending into feed inlet 7 with grain, and the quantity of feed inlet 8 can set up as required, is sent into storage grain bin 2 with the grain that gets into from feed inlet 7 in the storehouse.

The upper end surface in the middle of the delivery pipe 6 of the delivery is evenly distributed with the material outlet and inlet 9, the material outlet and inlet 9 is correspondingly matched with the material outlet 3, the longitudinal material pipe 4-2 is provided with the material outlet and outlet 10, the material outlet and outlet 10 is arranged outside the grain storage bin 2 and is connected with the movable belt conveyor through the chute for conveying grains downstairs.

The feeding outlet 8, the discharging inlet 9, the discharging outlet 10 and the discharging outlet 3 are all provided with electric gates, the electric gates on the discharging outlet 3 are in a normally closed state, and the electric gates are opened only during discharging operation. The electric gate in this application is a conventional electric gate valve (ZYH 943 flat gate valve) on the market.

When the system of the application is adopted for warehousing, the electric gates on the warehousing inlet 9 and the warehousing outlet 10 are closed, at the moment, grain enters the warehousing inlet 7 through the scraper conveyor chute, the driving motor drives the conveying chain in the system to move circularly, so that the grain is driven to move along the arrow direction in fig. 1 and is conveyed into the grain storage bin 2 from the warehousing outlet 8, and warehousing is realized.

When discharging, the electric gate above the feeding and discharging port 8 is closed, the electric gate on the discharging port 9, the discharging port 10 and the discharging port 3 is opened, at this time, the grains in the grain storage bin 2 enter the discharging port 9 from the discharging port 3, then move in the system along the material moving direction, discharge from the discharging ports 10 on both sides, and then convey by the movable belt conveyor.

Example 2

As shown in fig. 3 and 4, the warehousing material conveying pipe 5 and the ex-warehouse material conveying pipe 6 are arranged in parallel, two ends of the warehousing material conveying pipe 5 and two ends of the ex-warehouse material conveying pipe 6 are connected through a vertical material pipe 4-1 to form a circulating material conveying system, and a driving motor is arranged on the vertical material pipe 4-1 on one side and used for driving a conveying chain with disks in the material conveying pipes to move circularly.

The upper end surfaces of two sides of the warehousing conveying pipe 5 are provided with warehousing feed inlets 7, and the lower end surface in the middle is uniformly provided with warehousing discharge outlets 8; the lower terminal surface of delivery pipeline 6 both sides of delivering from godown sets up out the storehouse pan feeding mouth 10, and the intermediate position evenly sets up out the storehouse pan feeding mouth 9, and the setting of the corresponding matching of 2 bottom discharge gates 3 in grain storage storehouse of delivery mouth 9 and storage grain storehouse, and it is just corresponding under discharge gate 3 that the feed inlet 9 of delivering from godown promptly.

Consistent with embodiment 1, the electric gates are disposed on the inlet and outlet 8, the outlet and inlet 9, the outlet and outlet 10, and the outlet 3, and the electric gate on the outlet 3 is normally closed and is opened only during the outlet operation.

When the system of the application is adopted for warehousing, the electric gates on the warehousing inlet 9 and the warehousing outlet 10 are closed, at the moment, grain enters the warehousing inlet 7 through the scraper conveyor chute, the driving motor drives the conveying chain in the system to move circularly, so that the grain is driven to move along the arrow direction in fig. 1 and is conveyed into the grain storage bin 2 from the warehousing outlet 8, and warehousing is realized.

When discharging, the electric gate above the feeding and discharging port 8 is closed, the electric gate on the discharging port 9, the discharging port 10 and the discharging port 3 is opened, at this time, the grains in the grain storage bin 2 enter the feeding port 9 from the discharging port 3, move along the moving direction of the materials in the system, are discharged from the discharging ports 10 at the two sides, and then are conveyed by the movable belt conveyor.

Example 3

As shown in fig. 5 and fig. 6, the material feeding pipe 5 and the material discharging pipe 6 are arranged in parallel, wherein different from those of embodiments 1 and 2, the material feeding pipe 5 and the material discharging pipe 6 are both circulating pipelines, and the driving motors are respectively arranged at the side edges of the material feeding pipe 5 and the material discharging pipe 6 for driving the conveying chains with discs in the material feeding pipes to move circularly.

The upper end surfaces of two sides of the warehousing conveying pipe 5 are provided with warehousing feed inlets 7, and the lower end surface of the middle part is uniformly provided with warehousing discharge outlets 8.

The lower end surfaces of the two sides of the delivery pipe 6 are provided with a delivery outlet 10, and the upper end surface of the middle is provided with a delivery inlet 9.

In addition, the upper end surfaces of two sides of the delivery pipe 6 for delivering the materials out of the warehouse can be provided with a warehousing feed inlet 7, the lower end surface of the middle part of the delivery pipe is provided with a warehousing discharge outlet 8, and warehousing operation can be simultaneously carried out on warehouses of two floors.

The installation in the building is schematically shown in fig. 6, and the feed conveyor 5 is installed at the lower part of the ceiling of each layer of the grain storage bin 2, and the delivery conveyor 6 is installed at the bottom of the floor.

When the grain enters the bin, the electric gates on the discharging port 10 and the feeding port 9 are closed, the grain enters through the feeding ports on the feeding pipe 5 and the discharging pipe 6, the chain in the feeding pipe is driven by the driving motor to move circularly, and the grain is discharged through the discharging port 8, so that the two-layer bin entering operation can be realized simultaneously.

When the grain is taken out of the bin, the electric gate on the feeding outlet 8 is closed, and the electric gates on the discharging outlet 3, the discharging inlet 9 and the discharging outlet 10 are opened, so that the grain on the floor is taken out of the bin.

Example 4

The electric gate comprises a gate frame 11 and a speed reducing motor 14, and the right side of the gate frame 11 is respectively fixed on the warehousing discharge port 8, the ex-warehouse feeding port 9, the ex-warehouse discharge port 10 and the discharge port 3 through bolts.

Slide rails 12 are arranged on two sides of a door frame 11, a movable gate 13 is slidably connected in the slide rails 12, a screw rod 15 is arranged in the middle of the movable gate 13, a screw rod 15 is arranged at the output end of a speed reducing motor 14 (model NMRV 025), and one end of the screw rod 15 penetrating through the door frame 11 is meshed with a threaded hole 16. The reduction motor 14 is provided with a forward switch and a reverse switch, and the opening and closing of the movable shutter 13 can be controlled by controlling the forward rotation and the reverse rotation of the motor.

Therefore, when the discharge port 8, the discharging port inlet 9, the discharging port 10 and the discharge port 3 are in a closed state, the movable gate 13 is just above the discharge port 8, the discharging port inlet 9, the discharging port 10 and the discharge port 3, when the movable gate needs to be opened, the motor is controlled to rotate reversely, and the movable gate 13 moves leftwards along the slide rail 12 to realize an opened state.

In addition, the right side of the door frame 11 is provided with the rubber pad 17, so that the abrasion can be reduced, and the service life of the electric gate is prolonged.

Finally, the above embodiments are only used for illustrating the technical solutions of the present invention and not for limiting, and other modifications or equivalent substitutions made by the technical solutions of the present invention by those of ordinary skill in the art should be covered within the scope of the claims of the present invention as long as they do not depart from the spirit and scope of the technical solutions of the present invention.

Claims (8)

1. The utility model provides a continuous business turn over storehouse system in building storehouse, includes building storehouse (1), building storehouse (1) includes storage grain bin (2) that the multilayer parallel was arranged, its characterized in that: a plurality of discharge holes (3) are uniformly formed in the bottom of each layer of the grain storage bin (2), and a continuous feeding and discharging system is arranged in each layer of the grain storage bin (2);

the continuous warehouse entry and exit system comprises a warehouse entry conveying pipe (5) and a warehouse exit conveying pipe (6) which are arranged in parallel, the warehouse entry conveying pipe (5) is arranged at the lower part of a top plate of the grain storage warehouse (2), and the warehouse exit conveying pipe (6) is arranged at the bottom of a bottom plate of the grain storage warehouse (2); conveying chains with discs are arranged in the warehousing conveying pipe (5) and the ex-warehouse conveying pipe (6), and a driving motor drives the conveying chains to circularly move along the warehousing conveying pipe (5) and the ex-warehouse conveying pipe (6);

the warehouse entering type conveying pipe is characterized in that a warehouse entering feeding port (7) and a warehouse entering discharging port (8) are formed in the warehouse entering conveying pipe (5), a warehouse discharging port (9) and a warehouse discharging port (10) are formed in the warehouse discharging conveying pipe (6), and the warehouse discharging port (9) and the discharging port (3) are correspondingly matched.

2. The continuous warehouse entry and exit system of claim 1, wherein: and electric gates are arranged on the warehousing discharge hole (8), the ex-warehouse feeding hole (9), the ex-warehouse discharge hole (10) and the discharge hole (3).

3. The continuous warehouse entry and exit system of claim 1, wherein: two ends of the delivery pipe (6) for delivering the materials out of the warehouse are communicated with the L-shaped delivery pipe (4), the L-shaped delivery pipe (4) comprises a vertical material pipe (4-1) and a longitudinal material pipe (4-2), and two ends of the delivery pipe (5) for delivering the materials into the warehouse are respectively connected with the vertical material pipe (4-1); the side end face of the warehousing material conveying pipe (5) is provided with a warehousing feed inlet (7), and the middle lower end face is uniformly provided with warehousing discharge outlets (8); the upper end surface of the middle of the delivery pipe (6) is evenly provided with a delivery inlet (9), and the longitudinal material pipe (4-2) is provided with a delivery outlet (10).

4. The continuous warehouse entry and exit system of claim 1, wherein: the warehouse entry conveying pipe is characterized in that the two ends of the warehouse entry conveying pipe (5) and the two ends of the warehouse exit conveying pipe (6) are connected through vertical material pipes (4-1), the upper end faces of the two sides of the warehouse entry conveying pipe (5) are provided with warehouse entry feed inlets (7), the lower end faces of the middle of the warehouse entry conveying pipe are evenly provided with warehouse entry discharge outlets (8), the lower end faces of the two sides of the warehouse exit conveying pipe (6) are provided with warehouse exit discharge outlets (10), and the upper end faces of the middle of the warehouse exit conveying pipe are evenly provided with warehouse exit feed inlets (9).

5. The continuous warehouse entry and exit system of claim 1, wherein: the warehousing conveying pipe (5) and the delivery pipe (6) are circulating pipelines, the upper end surfaces of two sides of the warehousing conveying pipe (5) are provided with warehousing feeding holes (7), and the lower end surface in the middle is uniformly provided with warehousing discharging holes (8); the lower end surfaces of the two sides of the delivery pipe (6) are provided with a delivery outlet (10), and the upper end surface of the middle is uniformly provided with a delivery inlet (9).

6. The continuous warehouse entry and exit system of claim 5, wherein: the upper end surfaces of two sides of the delivery pipe (6) are also provided with a warehousing feed inlet (7), and the middle lower end surface is uniformly provided with a warehousing discharge outlet (8).

7. The continuous warehouse entry and exit system of the building warehouse of claim 2, characterized in that: the electric gate comprises a gate frame (11) and a speed reducing motor (14), sliding rails (12) are arranged on two sides of the gate frame (11), the sliding rails (12) are connected with a movable gate (13) in a sliding mode, a threaded hole (16) is formed in the middle of the movable gate (13), a screw rod (15) is arranged at the output end of the speed reducing motor (14), and one end, penetrating through the gate frame (11), of the screw rod (15) is meshed with the threaded hole (16).

8. A method of using the continuous building warehouse entry and exit system of claim 1, characterized in that: the method comprises the following steps:

1) when the grain enters the barn, electric gates on a barn feeding port (9) and a barn discharging port (10) are closed, the grain enters a barn feeding port (7) through a scraper conveyor chute, a driving motor drives a conveying chain to move, and the grain is conveyed into a grain storage barn (2) from a barn discharging port (8) to realize barn entering operation;

2) when the grain is discharged, the electric gate above the warehousing discharge port (8) is closed, the electric gate is opened on the warehousing discharge port (9), the warehousing discharge port (10) and the discharge port (3), the grain in the grain storage bin (2) enters the warehousing discharge port (9) from the discharge port (3) and is discharged from the warehousing discharge port (10), and the warehousing discharge operation is realized.

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