CN220089304U - Rice bucket with double storage chambers - Google Patents

Abstract

The utility model belongs to the technical field of five-cereal storage appliances, and relates to a double-storage-chamber rice bucket which comprises: the storage area, the cover, the partition board, the receiving area, the flow divider and the flow control device; this patent separates into two parts with storage area, realizes the reposition of redundant personnel through the shunt, utilizes the cooperation of a subassembly accuse flow device and shunt, makes second reposition of redundant personnel hole or/and third reposition of redundant personnel hole and the first reposition of redundant personnel hole intercommunication that corresponds or close through the rotation of first accuse flow piece or/and second accuse flow piece and realize getting material and close, compact structure is small, with low costs.

Description

Rice bucket with double storage chambers

Technical Field

The utility model belongs to the technical field of five-cereal storage appliances, and particularly relates to a double-storage-chamber rice bucket and a vacuum rice bucket.

Background

The vacuum rice barrel has vacuumizing and quantitative extraction functions, generally comprises a storage area, a cover, a flow divider, a flow component and a vacuumizing component, wherein the storage area is provided with a conical bottom, a middle hole is formed in the conical bottom, the flow divider is arranged in the middle of the conical bottom, the flow component comprises a flow valve and a driver, the flow valve is provided with an upper connecting port and a lower discharging port, the upper connecting port of the flow valve is in sealing connection with the flow divider, the vacuumizing component comprises a vacuum pump and a pipe body connected with the vacuum pump and the storage area, the vacuum degree of the storage area is maintained, a receiving area is generally arranged below the flow valve, and a placing space for receiving a container is provided. In operation, the driver opens the flow valve and the grains are discharged from the lower discharge outlet through the diverter and the flow valve and fall into the receiving container.

In daily life, people hope to store two kinds of five cereals, such as rice and beans, only one storage chamber of the vacuum rice barrel cannot meet the demands of people, some manufacturers design rice barrels with a plurality of independent storage chambers, the rice barrels are designed in parallel, each storage chamber is provided with an independent flow component, one path of evacuating component is needed to be configured for each storage chamber when a vacuum function is configured, the placement space of a receiving container is designed to be large, and when people need five cereals which are not needed, the receiving container is placed below the corresponding storage chamber and the corresponding flow component is started. The rice barrel has large volume and high cost.

Disclosure of Invention

The utility model aims to solve the problem that the existing rice barrel with multiple storage chambers has large volume and high cost because a flow component is required to be arranged for each storage chamber.

A dual storage compartment rice bucket comprising: the storage area, the cover, the partition board, the receiving area, the flow divider and the flow control device; the storage area has an upper opening and a tapered bottom with an outlet at the lower end; the cover is used for opening and closing the upper end opening of the storage area; the partition plate is vertically arranged in the storage area to divide the storage area into a first storage area and a second storage area; the receiving area is arranged below the storage area and provides a placing space for receiving the container; the diverter is arranged at the outlet of the conical bottom and is provided with a first diversion guide surface and a diversion surrounding wall which is arranged on the lower side of the first diversion guide surface in a surrounding manner, the first diversion guide surface is connected with the lower end of the partition board, the inner side of the diversion surrounding wall is provided with a circular arc-shaped diversion surface, and a plurality of first diversion holes are respectively arranged on the two sides of the partition board; the flow control device comprises a first flow control piece, a second flow control piece and an elastic piece; one end of the first flow control piece is provided with a first flow control part, the other end of the first flow control part is provided with a first control part, the side part of the first flow control part is provided with a first flow control surface matched with the flow dividing surface, the first flow control surface is provided with a second flow dividing hole corresponding to the first flow dividing hole on one side of the partition plate, and the second flow dividing hole is communicated with the placing space; one end of the second flow control part is provided with a second flow control part, the other end of the second flow control part is provided with a second control part, the side part of the second flow control part is provided with a second flow control surface matched with the flow distribution surface, the second flow control surface is provided with a third flow distribution hole corresponding to the first flow distribution hole on the other side of the partition plate, and the third flow distribution hole is communicated with the placing space; the first flow control part and the second flow control part are rotatably assembled on the inner side of the flow dividing surrounding wall around the central line of the flow dividing surface; the elastic piece acts on the first flow control piece and the second flow control piece to generate a reset force for driving the first flow control part and the second flow control part to relatively rotate so that the second flow diversion hole and the third flow diversion hole are staggered from the corresponding first flow diversion hole to realize closing; when the first control part or/and the second control part is operated by a user to overcome the reset force, the first flow control part or/and the second flow control part can be rotated to enable the second flow diversion hole or/and the third flow diversion hole to be communicated with the corresponding first flow diversion hole, so that the material taking is realized.

Compared with the prior art, this patent separates into two parts with storage area, realizes the reposition of redundant personnel through the shunt, utilizes the cooperation of a subassembly accuse flow device and shunt, makes second reposition of redundant personnel hole or/and third reposition of redundant personnel hole and the first reposition of redundant personnel hole intercommunication that corresponds or close through the rotation of first accuse flow piece or/and second accuse flow piece to realize getting material and close, compact structure is small, with low costs.

Further, the device also comprises a support arranged below the storage area, wherein the support is provided with a collecting hole which is communicated with the second diversion hole, the third diversion hole and the receiving area, and a rotating fulcrum of the first flow control part or/and the second flow control part. The support is used for providing a support and a fulcrum for the first flow control part or/and the second flow control part, and meanwhile, the collecting holes can collect materials flowing out of the second flow dividing holes and the third flow dividing holes, so that the materials can be conveniently collected into a container of the storage area.

Further, the support is provided with an annular supporting portion for supporting the first flow control portion and the second flow control portion, the collecting holes are formed in the inner side of the annular supporting portion, and a flow guide wall is arranged between the collecting holes and the annular supporting portion. Through the structure, stable support can be provided for the first flow control part and the second flow control part, and stability during rotation is ensured.

Further, the rotary fulcrum is a rotary connecting part arranged in the collecting hole, and the rotary connecting part is connected with the guide wall through a plurality of connecting parts arranged at intervals; the first flow control part and the first flow control part are connected with the rotary connecting part by one of the following:

the first flow control part is rotatably sleeved with the rotary connecting part, and the second flow control part is rotatably sleeved with the first flow control part;

the first flow control part and the second flow control part are rotatably sleeved with the rotary connecting part.

Further, the container bracket comprises a top wall and a bottom wall, the bearing area with an opening at the front side is formed between the top wall and the bottom wall, the top wall is provided with an avoidance hole communicated with the collection hole, the upper part of the front side of the top wall is provided with an arc limiting part, and the arc limiting part is provided with an arc first movable groove and an arc second movable groove corresponding to the first operating part and the second operating part; the first operation part comprises a first stirring part, the first operation part comprises a second stirring part, the inner ends of the first stirring part and the second stirring part are respectively connected with the first operation part and the second operation part through a first movable groove and a second movable groove, the first stirring part can swing relative to the first movable groove, and the first stirring part can swing relative to the first movable groove.

Further, the weighing device further comprises a weighing module and a display module, wherein the weighing module comprises a tray arranged at the bottom of the bearing area and a weight sensor for supporting the tray, the display module is electrically connected with the weight sensor, and the display module is provided with a display area for displaying data of the weight sensor. The weighing module and the display module can be used for facilitating the user to judge the weight of the materials so as to control the material taking amount.

Further, the lower end of the outlet at the bottom of the cone is provided with a first annular connecting part, the diverter comprises a second annular connecting part which is arranged on the outer side of the diversion surrounding wall in a surrounding mode, the second annular connecting part is matched with the inner wall of the first annular connecting part, and a second diversion guide surface is connected between the upper end of the second annular connecting part and the lower end of the diversion surrounding wall. Through above-mentioned improvement, the connection of convenient shunt and toper bottom.

Further, the second diversion guide surface is provided with a plurality of radially extending dividing triangular parts. Through above-mentioned improvement, can improve the respective reposition of redundant personnel effect of first storage area and second storage area, make the ejection of compact smooth and easy, avoid the card material.

Further, the second annular connecting part is in sealing connection with the first annular connecting part through a first sealing element, a second sealing element is arranged on the first flow control surface, an avoidance hole is formed in the second sealing element corresponding to the second flow dividing hole, the first flow control surface is in sealing fit with the flow dividing surface through the second sealing element, a third sealing element is arranged on the second flow control surface, an avoidance hole is formed in the third sealing element corresponding to the third flow dividing hole, and the second flow control surface is in sealing fit with the flow dividing surface through the third sealing element; the vacuum module comprises a vacuum pump and a pipe body connected with the vacuum pump and the upper part of the storage area, and the upper parts of the first storage area and the second storage area are communicated. By adopting the scheme, the vacuum degree control of the first storage area and the second storage area can be realized through one vacuum module, and the material cost is reduced.

Drawings

FIG. 1 is a perspective view of a dual storage compartment rice bucket of the present utility model

FIG. 2 is a perspective sectional view of a rice bucket with double storage compartments according to the present utility model

FIG. 3 is a front cross-sectional view of a rice bucket with dual storage compartments according to the present utility model

FIG. 4 is a perspective transverse sectional view of a rice bucket with double storage chambers according to the present utility model

FIG. 5 is a schematic perspective view of a flow control device

FIG. 6 is a cross-sectional view of a flow control device

FIG. 7 is a schematic perspective view of a flow control device and a flow divider

FIG. 8 is a schematic perspective view of a tapered base and associated components

FIG. 9 is a partial exploded view of a tapered bottom and associated components

FIG. 10 is a schematic perspective view of the flow divider, flow control device and related components in a second flow control member closed state

FIG. 11 is a schematic perspective view of the flow divider, flow control device and related components in an open state of the second flow control member

FIG. 12 is a schematic perspective view of the flow control device and related components in a second flow control member closed state

FIG. 13 is a schematic perspective view of the flow control device and related components in an open state of the second flow control member

FIG. 14 is an exploded view of a flow control device and associated components

Detailed Description

Referring to fig. 1 to 14, a dual storage compartment rice bucket, comprising: a shell 1, a cover 2, a conical bottom 1.2, a bottom cover 1.3, a baffle 3, a flow divider 5 and a flow control device 6; the conical bottom 1.2 is arranged in the shell 1, the upper side of the conical bottom 1.2 and the inner wall of the shell 1 are enclosed to form a storage area 100 with an upper end opening, the lower end of the conical bottom 1.2 is provided with an outlet 1.20, and the bottom cover 1.3 covers the lower end of the shell 1; below the storage area 100, i.e. below the conical bottom 1.2, a receiving area s0 is arranged for providing a receiving space for receiving a container c, and the receiving area s0 is provided with an inlet for receiving the container c at its side. A cover 2 is fitted on the upper end of the housing 1 for opening and closing the upper end opening of the storage area 100; the partition 3 is vertically arranged in the storage area 100 to divide it into a first storage area 101 and a second storage area 102; the diverter 5 is arranged at the outlet 1.20 of the conical bottom 1.2 and is provided with a first diversion guide surface 5.1 and a diversion surrounding wall 5.2 which is arranged on the lower side of the first diversion guide surface 5.1 in a surrounding manner, the first diversion guide surface 5.1 is connected with the lower end of the partition plate 3, the inner side of the diversion surrounding wall 5.2 is provided with a circular arc-shaped diversion surface 5.20, and a plurality of first diversion holes 5.21 are respectively arranged on the two sides of the partition plate 3 of the diversion surrounding wall 5.2; the flow control device 6 comprises a first flow control element a, a second flow control element b and an elastic element k; one end of the first flow control piece a is provided with a first flow control part a.1, the other end of the first flow control piece a is provided with a first operating part a.2, the side part of the first flow control part a.1 is provided with a first flow control surface a.11 matched with the flow distribution surface 5.20, the first flow control surface a.11 is provided with a second flow distribution hole a.10 corresponding to the first flow distribution hole 5.21 at one side of the partition plate 3, and the second flow distribution hole a.10 is communicated with the bearing area s0; one end of the second flow control part b is provided with a second flow control part b.1, the other end of the second flow control part b.1 is provided with a second operating part b.2, the side part of the second flow control part b.1 is provided with a second flow control surface b.11 matched with the flow distribution surface 5.20, the second flow control surface b.11 is provided with a third flow distribution hole b.10 corresponding to the first flow distribution hole 5.21 at the other side of the partition plate 3, and the third flow distribution hole b.10 is communicated with the receiving area s0; the first flow control part a.1 and the second flow control part b.1 are rotatably assembled inside the flow dividing surrounding wall 5.2 around the center line of the flow dividing surface 5.20; the elastic piece k acts on the first flow control piece a and the second flow control piece b to generate a reset force for driving the first flow control part a.1 and the second flow control part b.1 to relatively rotate so that the second diversion hole a.10 and the third diversion hole b.10 are staggered from the corresponding first diversion hole 5.21 to realize closing; when the first control part a.2 or/and the second control part b.2 is operated by a user to overcome the reset force, the first flow control part a.1 or/and the second flow control part b.1 can be rotated to enable the second diversion hole a.10 or/and the third diversion hole b.10 to be communicated with the corresponding first diversion hole 5.21, so that the material taking is realized.

Referring to fig. 2, 3, 8 and 9, one way of mounting the partition 3 is to adapt the vertical cross-sectional shape of the storage area 100, with both edges connected to the inner wall of the housing 1, respectively, and the lower edge connected to the inner wall of the conical bottom 1.2 and the first diverting guide surface 5.1.

In one embodiment, the shell 1 is in a metal cylinder shape, such as stainless steel material, the conical bottom 1.2 and the partition plate 3 are also made of corresponding materials, the conical bottom 1.2 is arranged in the shell 1 in a welding manner, and specifically, the upper end edge of the conical bottom 1.2 is welded with the inner wall of the shell 1; the partition plate 3 is connected with the inner wall of the shell 1 and the inner wall of the conical bottom 1.2 in a welding mode.

Referring to fig. 1, 10 to 14, when a user needs to take the first grains placed in the first storage area 101, the user pulls the first control part a.2 to rotate the first flow control part a.1, so that the second diversion hole a.10 is communicated with the corresponding first diversion hole 5.21, the first grains sequentially pass through the corresponding first diversion hole 5.21 and the second diversion hole a.10 and fall into the container c of the receiving area s0, when the first grains in the container c reach the required amount, the first control part a.2 is released, the first flow control part a.1 is rotated and reset under the action of the elastic piece k, and the second diversion hole a.10 and the first diversion hole 5.21 are completely staggered to close the first storage area 101. When the second grains placed in the second storage area 102 need to be taken, the second manipulating part b.2 is shifted to enable the second flow control part b.1 to rotate, so that the third diversion hole b.10 is communicated with the corresponding first diversion hole 5.21, the second grains sequentially pass through the corresponding first diversion hole 5.21 and the third diversion hole b.10 and fall into the receiving container c of the receiving area s0, when the second grains in the receiving container c reach the required amount, the second manipulating part b.2 is released, the second flow control part b.1 rotates to reset under the action of the elastic piece k, and the third diversion hole b.10 and the corresponding first diversion hole 5.21 are completely staggered to close the second storage area 102. If two kinds of grains are needed, the first manipulating part a.2 and the second manipulating part b.2 can be simultaneously shifted, or the first manipulating part a.2 and the second manipulating part b.2 can be respectively shifted.

Referring to fig. 14, the elastic member k is a spring, and both ends thereof are connected to the first manipulating portion a.2 and the second manipulating portion b.2, respectively, such as by a snap connection.

Compared with the prior art, the storage area 100 is divided into two parts, the flow distribution is realized through the flow divider 5, the second flow distribution hole a.10 or/and the third flow distribution hole b.10 are communicated with or closed by the rotation of the first flow control piece a or/and the second flow control piece b through the cooperation of the flow control device 6 and the flow divider 5, and the material taking and closing are realized through the communication or closing of the first flow control piece a or/and the third flow distribution hole b.10 and the corresponding first flow distribution hole 5.21, so that the device is compact in structure, small in size and low in cost.

Referring to fig. 2 and 3, and fig. 8 to 14, further, the device further includes a support 7 disposed below the storage area 100, and the support 7 is provided with a collecting hole 700 for communicating the second and third diversion holes a.10 and b.10 with the receiving area s0, and a rotation fulcrum 7.1 of the first flow control portion a.1 or/and the second flow control portion b.1. The support 7 provides a support and a fulcrum for the first flow control part a.1 and/or the second flow control part b.1, and meanwhile, the material flowing out of the second flow diversion hole a.10 and the third flow diversion hole b.10 can be collected by the flow collection hole 700, so that the material can be conveniently collected into a container of the storage area 100.

Referring to fig. 14, the support 7 is provided with an annular supporting part 701 supporting the first and second flow control parts a.1 and b.1, the collecting hole 700 is formed inside the annular supporting part 701, and a guide wall 7.2 is provided between the collecting hole 700 and the annular supporting part 701. Through the structure, stable support can be provided for the first flow control part a.1 and the second flow control part b.1, and stability in rotation is ensured.

Referring to fig. 14, the rotation fulcrum 7.1 is connected with the guide wall 7.2 through a plurality of connecting parts 7.3 arranged at intervals; the first flow control part a.1 and the connection between the first flow control part a.1 and the rotary connecting part adopt one of the following:

the first flow control part a.1 is rotatably sleeved with the rotary fulcrum 7.1, and the second flow control part b.1 is rotatably sleeved with the first flow control part a.1. Referring to fig. 6, 8 to 14, in the embodiment shown in the drawings, the rotation fulcrum 7.1 is rotatably connected to the rotation connecting portion a.12 of the first flow control portion a.1, and the rotation connecting portion b.12 of the second flow control portion b.1 is rotatably connected to the middle portion of the first flow control portion a.1. Specifically, the rotation pivot 7.1 is a rotation shaft protrusion, the rotation connection part a.12 of the first flow control part a.1 is provided with a sleeve hole a.121, and the first flow control part a.1 is rotatably sleeved on the rotation pivot 7.1 through the lower part of the sleeve hole a.121; the lower end of the rotary connecting part b.12 of the second flow control part b.1 is provided with a rotary shaft boss b.121, and the second flow control part b.1 is rotatably sleeved at the upper part of the sleeve hole a.121 through the rotary shaft boss b.121.

In other embodiments, the first flow control portion a.1 and the second flow control portion b.1 may also be designed to be rotatably sleeved with the rotation fulcrum 7.1.

Referring to fig. 10 to 14, the container rack s further includes a container rack s having a top wall s.1, a bottom wall s.2, and a side wall s.3, a receiving area s0 having a front opening is formed between the top wall s.1, the bottom wall s.2, and the side wall s.3, the top wall s.1 is provided with a dodging hole s.10 communicating with the collecting hole 700, an arc-shaped limiting portion s.11 is provided at an upper portion of a front side of the top wall s.1, the arc-shaped limiting portion s.11 is provided with an arc-shaped first movable groove s.111 and a second movable groove s.112 corresponding to the first manipulation portion a.2 and the second manipulation portion b.2, and a partition portion s.113 is provided between the first movable groove s.111 and the second movable groove s.112; the first manipulating part a.2 comprises a first poking part a.21, the second manipulating part b.2 comprises a second poking part b.21, the first poking part a.21 and the second poking part b.21 are used for being convenient for a user to operate, the inner ends of the first poking part a.21 and the second poking part b.21 are respectively connected with the first manipulating part a.2 and the second manipulating part b.2 through a first movable groove s.111 and a second movable groove s.112, the first poking part a.21 can swing relative to the first movable groove s.111, and the second poking part b.21 can swing relative to the second movable groove s.112.

Referring to fig. 9, the container holder s and the bottom cover 1.3 are connected by connecting posts 7.31 and connecting posts 1.31, respectively.

Referring to fig. 9, the weighing apparatus further includes a weighing module g including a tray g.1 disposed at the bottom of the receiving area s0 and a weight sensor g.2 supporting the tray g.1, and a display module v electrically connected to the weight sensor g.2, the display module v providing a display area displaying data of the weight sensor g.2. The weighing module g and the display module v can facilitate the user to judge the weight of the materials so as to control the material taking amount. Specifically, the bottom wall s.2 of the container support s is provided with an avoidance hole s.20, the weight sensor g.2 is mounted on the upper side of the bottom cover 1.3 and located in the avoidance hole s.20, and the tray g.1 is assembled at the avoidance hole s.20.

Referring to fig. 2 and 3, the lower end of the outlet 1.20 of the conical bottom 1.2 is provided with a first annular connecting part 1.21, the diverter 5 comprises a second annular connecting part 5.3 which is arranged around the outer side of the diverter surrounding wall 5.2, the second annular connecting part 5.3 is matched with the inner wall of the first annular connecting part 1.21, and a second diverter guiding surface 5.4 is connected between the upper end of the second annular connecting part 5.3 and the lower end of the diverter surrounding wall 5.2. By the above improvement, the connection of the diverter 5 and the conical bottom 1.2 is facilitated.

Referring to fig. 4 and 7, the second diverting guide surface 5.4 is provided with a number of radially extending dividing cams 5.5 for diverting grain to the first diverting holes 5.21 on each side. Through the improvement, the respective diversion effect of the first storage area 101 and the second storage area 102 can be improved, so that the discharging is smooth, and the blocking of materials is avoided.

Referring to fig. 2 and 3, and fig. 10 to 14, the second annular connecting portion 5.3 is in sealing connection with the first annular connecting portion 1.21 through a first sealing member t.1, a second sealing member t.2 is arranged on the first flow control surface a.11, a relief hole is formed in the second sealing member t.2 corresponding to the second flow diversion hole a.10, a third sealing member t.3 is arranged on the second flow control surface b.11 and in sealing fit with the first flow control surface 5.20 through a second sealing member t.2, a relief hole is formed in the third sealing member t.3 corresponding to the third flow diversion hole b.10, and a third sealing member t.3 is arranged between the second flow control surface b.11 and the flow diversion surface 5.20 and in sealing fit with the second flow control surface 5.20; the vacuum module 8 comprises a vacuum pump 8.1 and a pipe body 8.2 which is connected with the vacuum pump 8.1 and the upper part of the storage area 100, the upper parts of the first storage area 101 and the second storage area 102 are communicated, and a communication scheme is that through holes 3.1 are formed in the upper end of the partition plate 3. By adopting the scheme, the vacuum degree control of the first storage area 101 and the second storage area 102 can be realized through one vacuum module, so that the material cost is reduced.

Variations and modifications of the above-described embodiments may be made by those skilled in the art in light of the foregoing disclosure and are not to be limited to the specific embodiments disclosed and described herein, but rather should be construed according to the scope of the appended claims.

Claims (9)

1. Double storage room rice bucket, its characterized in that includes:

a storage area having an upper opening and a tapered bottom having an outlet at a lower end thereof;

a cover for opening and closing an upper end opening of the storage area;

a partition vertically disposed in the storage area to divide it into a first storage area and a second storage area;

the receiving area is arranged below the storage area and provides a placing space for receiving the container;

the diverter is arranged at the outlet of the conical bottom and is provided with a first diversion guide surface and a diversion surrounding wall which is arranged on the lower side of the first diversion guide surface in a surrounding manner, the first diversion guide surface is connected with the lower end of the partition board, the inner side of the diversion surrounding wall is provided with a circular arc-shaped diversion surface, and a plurality of first diversion holes are respectively arranged on the two sides of the partition board;

the flow control device comprises a first flow control piece and a second flow control piece; one end of the first flow control piece is provided with a first flow control part, the other end of the first flow control part is provided with a first control part, the side part of the first flow control part is provided with a first flow control surface matched with the flow dividing surface, the first flow control surface is provided with a second flow dividing hole corresponding to the first flow dividing hole on one side of the partition plate, and the second flow dividing hole is communicated with the placing space; one end of the second flow control part is provided with a second flow control part, the other end of the second flow control part is provided with a second control part, the side part of the second flow control part is provided with a second flow control surface matched with the flow distribution surface, the second flow control surface is provided with a third flow distribution hole corresponding to the first flow distribution hole on the other side of the partition plate, and the third flow distribution hole is communicated with the placing space; the first flow control part and the second flow control part are rotatably assembled on the inner side of the flow dividing surrounding wall around the central line of the flow dividing surface;

the elastic piece acts on the first flow control piece and the second flow control piece to generate a reset force for driving the first flow control part and the second flow control part to relatively rotate so that the second flow dividing hole and the third flow dividing hole stagger the corresponding first flow dividing hole to realize closing; when the first control part or/and the second control part is operated by a user to overcome the reset force, the first flow control part or/and the second flow control part can be rotated to enable the second flow diversion hole or/and the third flow diversion hole to be communicated with the corresponding first flow diversion hole, so that the material taking is realized.

2. The dual storage compartment rice bucket of claim 1 further comprising a support disposed below the storage area, the support being provided with a collection aperture communicating the second and third diversion apertures with the receiving area, and a pivot point for rotation of the first or/and second flow control portion.

3. The rice bucket with double storage chambers according to claim 2, wherein the support is provided with an annular supporting part supporting the first and second flow control parts, the flow collecting hole is formed at an inner side of the annular supporting part, and a flow guiding wall is provided between the flow collecting hole and the annular supporting part.

4. The rice bucket with double storage chambers according to claim 3, wherein the rotary fulcrum is a rotary connecting part arranged in the collecting hole, and the rotary connecting part is connected with the guide wall through a plurality of connecting parts arranged at intervals; the first flow control part and the first flow control part are connected with the rotary connecting part by one of the following:

the first flow control part is rotatably sleeved with the rotary connecting part, and the second flow control part is rotatably sleeved with the first flow control part;

the first flow control part and the second flow control part are rotatably sleeved with the rotary connecting part.

5. The rice bucket with double storage chambers according to claim 3, further comprising a container bracket, wherein the container bracket comprises a top wall and a bottom wall, the receiving area with a front side opening is formed between the top wall and the bottom wall, the top wall is provided with an avoidance hole communicated with the collection hole, the upper part of the front side of the top wall is provided with an arc limiting part, and the arc limiting part is provided with an arc-shaped first movable groove and an arc-shaped second movable groove corresponding to the first operating part and the second operating part; the first operation part comprises a first stirring part, the first operation part comprises a second stirring part, the inner ends of the first stirring part and the second stirring part are respectively connected with the first operation part and the second operation part through a first movable groove and a second movable groove, the first stirring part can swing relative to the first movable groove, and the first stirring part can swing relative to the first movable groove.

6. The dual storage compartment rice bucket of claim 5 further comprising a weighing module and a display module, the weighing module comprising a tray configured at the bottom of the receiving area and a weight sensor supporting the tray, the display module being electrically connected to the weight sensor, the display module providing a display area displaying the weight sensor data.

7. The rice bucket with double storage chambers according to any one of claims 1 to 6, wherein a first annular connecting part is arranged at the lower end of the outlet of the conical bottom, the diverter comprises a second annular connecting part which is arranged on the outer side of the diversion surrounding wall in a surrounding mode, the second annular connecting part is matched with the inner wall of the first annular connecting part, and a second diversion guiding surface is connected between the upper end of the second annular connecting part and the lower end of the diversion surrounding wall.

8. The dual storage compartment rice bucket of claim 7 wherein the second diversion guide surface is provided with a plurality of radially extending dividing triangular portions.

9. The rice bucket with double storage chambers according to claim 7, wherein the second annular connecting part is in sealing connection with the first annular connecting part through a first sealing element, a second sealing element is arranged on the first flow control surface, a avoiding hole is formed in the second sealing element corresponding to the second flow dividing hole, a third sealing element is arranged on the second flow control surface, a avoiding hole is formed in the third sealing element corresponding to the third flow dividing hole, and the second flow control surface is in sealing fit with the flow dividing surface through the third sealing element; the vacuum module comprises a vacuum pump and a pipe body connected with the vacuum pump and the upper part of the storage area, and the upper parts of the first storage area and the second storage area are communicated.