CN217547850U - Rotating mechanism and rotating rice bucket using same - Google Patents

Abstract

The utility model relates to a rotary mechanism and use rotatory rice bucket of this mechanism, including rotor plate and ball, the system has the roll groove of a plurality of bars on the rotor plate, the tank bottom system in roll groove has the roll hole of bar, the ball is located the roll inslot, and can roll and remove in the roll inslot, the top of ball is located the top in roll groove, the bottom of ball is passed the roll hole. Compared with the prior art, the rolling grooves and the rolling holes in the rotating plate are both in a strip shape, so that the rolling balls can roll and move, and the rolling is smoother; the discharging structure for opening or closing the discharging hole is arranged, so that the rice or the coarse cereals in the storing cavity can be taken more conveniently; the inserted convex plate is clamped into the mounting clamping groove, so that the partition plate is mounted on the inner wall of the barrel body, and the mounting and dismounting processes of the partition plate and the barrel body are convenient and fast.

Description

Rotating mechanism and rotating rice bucket using same

Technical Field

The utility model relates to a rotary mechanism and use rotatory rice bucket of this mechanism belongs to the kitchen supplies field.

Background

Modern families pursue healthy diet, and some coarse cereals are stored at home. Traditional storage tank can only deposit a cereal or coarse cereals, need be equipped with a plurality of storage tank and be used for storing, and occupation space is big, and it is also inconvenient to take, has improved the storage cost. Rotatory jar of accomodating has appeared in the market, is equipped with a plurality of thing chambeies of putting in the rotatory jar of accomodating for deposit different kind's five cereals. However, the rotary storage tank in the prior art has the problem of rotary blocking, and daily use is affected.

SUMMERY OF THE UTILITY MODEL

The utility model aims at the defects of the prior art and provides a rotating mechanism which can roll smoothly and a rotating rice bucket using the rotating mechanism.

For realizing the purpose the utility model adopts the technical proposal that:

the rotating mechanism comprises a rotating plate and balls, wherein a plurality of strip-shaped rolling grooves are formed in the rotating plate, strip-shaped rolling holes are formed in the bottoms of the rolling grooves, the balls are located in the rolling grooves and can roll and move in the rolling grooves, the tops of the balls are located above the rolling grooves, and the bottoms of the balls penetrate through the rolling holes.

As a further optimization of the above technical solution: the rolling groove is characterized in that a circle of positioning boss is arranged at the top of the rolling groove, the top of the ball is positioned above the positioning boss, the upper part of the inner wall of the positioning boss is provided with an installation inclined plane, the lower part of the inner wall of the positioning boss and the groove wall of the rolling groove jointly form an arc-shaped surface, a turning angle is formed between the arc-shaped surface and the installation inclined plane, and the distance between two opposite turning angles is smaller than the diameter of the ball.

Rotary mechanism's among the above-mentioned technical scheme rotatory rice bucket has been used, including the staving, be located the bung at staving top and being located connecting piece, fixing base and the base of staving below, it is provided with the drawer to slide in the base, the fixing base is installed on the base, the system has the feed opening on the fixing base, the feed opening is located the top of drawer, the rotor plate is ring shape, the system has the annular mounting groove on the fixing base, the rotor plate is located the annular mounting groove, the bottom of ball with the tank bottom of annular mounting groove contacts, the connecting piece is located the top of fixing base, the top of ball with the bottom of connecting piece contacts, the connecting piece can for the fixing base is rotatory, the system has a plurality of discharge gates on the connecting piece, be provided with a plurality of groups in the connecting piece and be used for opening or closing the discharge mechanism of discharge gate, the staving is installed on the connecting piece, the staving with form the inner chamber between the connecting piece, be provided with a plurality of vertical division boards in the inner chamber, the division board will the inner chamber is separated into a plurality of chambers, the top corresponding system of staving has a plurality of feed inlets, the feed inlet with the storage chamber intercommunication.

As a further optimization of the above technical solution: the inner wall system of staving has a plurality of groups installation piece, the installation piece includes two installation sand grips, two form installation draw-in groove between the installation sand grip, the installation piece extends to the top surface of inner chamber, the top system of staving has downward convex staving lug, the staving lug makes be formed with first locating groove on the installation piece, the center of staving lug bottom still system has first locating lug, the system has on the staving lug is used for placing the bung groove of bung, the charge door is located the tank bottom in bung groove.

As a further optimization of the above technical solution: the top system of division board has the second constant head tank, the cell wall, the tank bottom of side, top and the second constant head tank of division board all make and insert the flange, the system has second location lug on inserting the flange, first location lug is located in the second constant head tank, it blocks to insert the flange card in the installation slot, second location lug card is gone into in the first constant head tank, with this will the division board is installed on the inner wall of staving.

As a further optimization of the above technical solution: the division board includes first minute spacer, second spacer and third minute spacer, the middle part system of first minute spacer has last draw-in groove, the middle part system of second spacer has lower draw-in groove, the middle part system of third minute spacer has first draw-in groove and second draw-in groove, go up the draw-in groove lower draw-in groove with first draw-in groove the second draw-in groove makes first minute spacer the second spacer with third minute spacer joint of each other.

As a further optimization of the above technical solution: the connecting piece includes the storage board and is located the rotation seat of storage board below, the system has a plurality of guide slots on the storage board, the system has first discharge gate in the guide slot, the system has the shifting chute on the rotation seat, the middle part system of shifting chute has the shifting boss, the shifting chute is kept away from the cell wall of shifting boss is outer cell wall, be equipped with a plurality of mobile location pieces on the rotation seat, the mobile location piece is including being located second discharge gate on the mobile boss, being located the mobile direction board of second discharge gate both sides, being located the spring fixture block of mobile boss lateral wall, being located the button hole of the outer cell wall of shifting chute and being located remove the last removal locating plate of boss, the top system of mobile direction board has the mobile fixture block, the system has second direction inclined plane on the mobile fixture block, two the mobile fixture block sets up relatively.

As a further optimization of the above technical solution: the discharging mechanism comprises a moving block, a button and a spring, a third discharging hole is formed in the moving block, a bending plate is formed at one end of the moving block, a button mounting block is formed in the bending plate, a first groove is formed in the button mounting block, a second groove is formed in the groove bottom of the first groove, a hollow spring column is formed in the middle of the second groove, an insertion hole is further formed in the groove bottom of the second groove, the insertion hole is in a circular truncated cone shape and is located in the spring column, an insertion block is formed in the button and is in a circular truncated cone shape, the insertion block is inserted into the insertion hole, a third positioning convex block is further formed in the button, a second positioning notch is correspondingly formed in the button mounting block, and the third positioning convex block is located in the second positioning notch.

As a further optimization of the above technical solution: the moving block is clamped between the two moving guide plates, the moving fixture block is located above the moving block, the button and the button installation block penetrate through the button hole, the end portion of the spring is sleeved on the spring column and the spring fixture block, and two ends of the spring are respectively in contact with the bottom of the second groove and the side wall of the moving boss.

As a further optimization of the above technical solution: when the spring is in an extension state, the third discharge hole and the first discharge hole are staggered. And when the button is pressed, the moving block moves towards the middle of the moving groove, the spring is compressed until the end part of the moving block is contacted with the moving positioning plate, and at the moment, the third discharge hole is positioned under the first discharge hole.

As a further optimization of the above technical solution: the bottom of the barrel body is provided with a circle of barrel body convex plate, the barrel body convex plate and the outer wall of the barrel body form a barrel body step, the barrel body convex plate is positioned in the rotating seat and clings to the inner wall of the rotating seat, the barrel body step is contacted with the top surface of the side wall of the rotating seat, and the barrel body convex plate is provided with a plurality of barrel body mounting holes.

As a further optimization of the above technical solution: the side wall system of storage board has a plurality of storage lugs, the system has first direction inclined plane on the storage lug, the storage lug card is gone into in the staving mounting hole, the lateral wall of storage board is hugged closely the inner wall of staving, the bottom system of storage board lateral wall has round storage locating plate.

As a further optimization of the above technical solution: the movable guide plate extends to the outer groove wall and the groove bottom of the movable groove, a first positioning notch is formed in one end, close to the outer groove wall of the movable groove, of the movable guide plate, and the storage positioning plate is located in the first positioning notch.

As a further optimization of the above technical solution: the system has the standing groove in the base, one side system of standing groove has the opening, the drawer is located in the standing groove, and can pass through the opening will the drawer is pulled out, the tank bottom system of standing groove has the regulation hole, the system has the screens piece in the regulation hole, the system has the screens lug on the screens piece, the system has the screens inclined plane on the screens lug, the bottom system of drawer has spacing recess, the screens lug is located in the spacing recess, the tip system of drawer has the handle groove.

Compared with the prior art, the rolling grooves and the rolling holes in the rotating plate are both in a strip shape, so that the rolling balls can roll and move, and the rolling is smoother; the discharging structure for opening or closing the discharging hole is arranged, so that the rice or the coarse cereals in the storing cavity can be taken more conveniently; the inserted convex plate is clamped into the mounting clamping groove, so that the partition plate is mounted on the inner wall of the barrel body, and the mounting and dismounting processes of the partition plate and the barrel body are convenient and fast.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic diagram of the explosion structure of the present invention.

Fig. 3 is a schematic view of the three-dimensional structure of the middle barrel body of the present invention.

Fig. 4 is a schematic perspective view of the rotary seat of the present invention.

Fig. 5 is a schematic sectional structure diagram of the discharging mechanism of the present invention.

Fig. 6 is a schematic perspective view of the rotary plate and the balls of the present invention.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and the following detailed description. As shown in fig. 1-6, the rotating rice bucket comprises a bucket body 1, a bucket cover 2 positioned at the top of the bucket body 1, and a connecting piece, a fixed seat 6 and a base 3 which are positioned below the bucket body 1. The sliding device is provided with a drawer 4 in the base 3, the fixing seat 6 is installed on the base 3, a feed opening is formed in the fixing seat 6, and the feed opening is located above the drawer 4. The connecting piece is positioned above the fixed seat 6 and is in rotating fit with the fixed seat 6 through the rotating mechanism. Six discharge ports are formed on the connecting piece, and six groups of discharge mechanisms 8 for opening or closing the discharge ports are arranged in the connecting piece. The barrel body 1 is installed on the connecting piece, an inner cavity is formed between the barrel body 1 and the connecting piece, a plurality of vertical partition plates 7 are arranged in the inner cavity, and the inner cavity is divided into six material storage cavities by the partition plates 7. Six charging openings are correspondingly formed at the top of the barrel body 1. The charge door and storage cavity intercommunication, six storage cavities can place different kinds of rice and five cereals.

In the above technical scheme: as shown in fig. 2 and 6, the rotating mechanism includes a rotating plate 10 and a ball 11, the rotating plate 10 is annular, an annular mounting groove 61 is formed on the fixed seat 6, and the rotating plate 10 is located in the annular mounting groove 61. The rotating plate 10 is provided with a plurality of strip-shaped rolling grooves 101, and strip-shaped rolling holes 102 are formed at the bottoms of the rolling grooves 101. The top of the rolling groove 101 is provided with a circle of positioning bosses 103. The balls 11 are located in the rolling grooves 101 and can roll and move in the rolling grooves 101. The top of the ball 11 is located above the positioning boss 103 and contacts the bottom of the connecting member, and the bottom of the ball 11 passes through the rolling hole 102 and contacts the bottom of the annular mounting groove 61. The rolling groove and the rolling hole in the prior art are both circular, and the ball can only roll in the rolling groove, so that the situation of blocking during rolling is inevitable. The utility model discloses well roll groove 101 and roll hole 102 are the bar for ball 11 can roll and remove, and it is more smooth and easy to roll. The upper part of the inner wall of the positioning boss 103 is made into an installation inclined surface 105, the lower part of the inner wall of the positioning boss 103 and the groove wall of the rolling groove 101 together form an arc-shaped surface, a turning angle 104 is formed between the arc-shaped surface and the installation inclined surface 105, and the distance between two opposite turning angles 104 is smaller than the diameter of the ball 11. The mounting ramps 105 open the top of the locating bosses 103 to facilitate the entry of the balls 11 into the rolling grooves 101. The return angle 104 prevents the ball 11 from being disengaged from the rolling groove 101.

In the above technical scheme: as shown in fig. 2 and 3, the inner wall of the barrel body 1 is provided with a plurality of sets of mounting blocks. The mounting block comprises two mounting convex strips 12, and a mounting clamping groove 121 is formed between the two mounting convex strips 12. The mounting block extends to the entire top surface of the interior cavity. The top of the barrel body 1 is provided with a downward-protruding barrel body convex block 13, and the barrel body convex block 13 enables a first positioning groove 14 to be formed on the mounting block. The center of the bottom of the barrel body convex block 13 is also provided with a first positioning convex block 15. A barrel cover groove 131 for placing the barrel cover 2 is formed on the barrel body convex block 13, and the feed inlet is positioned at the bottom of the barrel cover groove 131.

In the above technical scheme: as shown in fig. 2, the top of the partition plate 7 is formed with a second positioning groove 73, and the side and top of the partition plate 7 and the groove wall and bottom of the second positioning groove 73 are formed with insertion projections 71. The insertion projection plate 71 is formed with a second positioning projection 72. The first positioning projection 15 is located in the second positioning groove 73, the insertion convex plate 71 is clamped into the installation clamping groove 121, and the second positioning projection 72 is clamped into the first positioning groove 14, so that the partition plate 7 is installed on the inner wall of the barrel body 1. The installation and disassembly processes of the partition plate 7 and the barrel body 1 are convenient and quick.

In the above technical scheme: the partition plate 7 includes a first partition plate, a second partition plate, and a third partition plate. The middle part system of first minute spacer has last draw-in groove, and the middle part system of second minute spacer has lower draw-in groove, and the middle part system of third minute spacer has first draw-in groove and second draw-in groove, goes up draw-in groove, lower draw-in groove and first draw-in groove, second draw-in groove and makes first minute spacer, second minute spacer and third minute spacer joint of each other.

In the above technical scheme: as shown in fig. 2 and 4, the connecting member comprises a material storage plate 9 and a rotating seat 5 positioned below the material storage plate 9. The material storage plate 9 is provided with a plurality of guide grooves 91, and a first discharge hole 92 is formed in the guide grooves 91. The rotating seat 5 is provided with a moving groove 58, the middle part of the moving groove 58 is provided with a moving boss 51, and the groove wall of the moving groove 58 far away from the moving boss 51 is an outer groove wall. Six groups of movable positioning blocks are arranged on the rotating seat 5, and each movable positioning block comprises a second discharge hole 52 positioned on the movable boss 51, movable guide plates 53 positioned on two sides of the second discharge hole 52, a spring fixture block 55 positioned on the side wall of the movable boss 51, a button hole 56 positioned on the outer wall of the movable groove 58 and a movable positioning plate 57 positioned on the movable boss 51. The top of the movable guide plate 53 is provided with a movable clamping block 54, the movable clamping block 54 is provided with a second guide inclined surface, and the two movable clamping blocks 54 are oppositely arranged.

In the above technical scheme: the discharging mechanism 8 includes a moving block 81, a button 82, and a spring 83. The moving block 81 is provided with a third discharge hole 811. As shown in fig. 2 and 5, one end of the moving block 81 is formed with a bent plate 812, and the bent plate 812 is formed with a button mounting block 813. The button mounting block 813 is provided with a first groove 814, the bottom of the first groove 814 is provided with a second groove 815, and the middle of the second groove 815 is provided with a hollow spring column 816. The bottom of the second groove 815 is also formed with an insertion hole having a truncated cone shape and located in the spring post 816. The button 82 is formed with an insertion block 821, and the insertion block 821 is in a truncated cone shape. The insertion block 821 is inserted into the insertion hole. The button 82 is formed with a third positioning protrusion 822, the button mounting block 813 is correspondingly formed with a second positioning notch 817, and the third positioning protrusion 822 is located in the second positioning notch 817 to prevent the button 82 from rotating relative to the moving block 81.

The moving block 81 is engaged between the two moving guide plates 53, the bottom of the moving block 81 contacts the moving boss 51, and the moving latch 54 is located above the moving block 81 to prevent the moving block 81 from being separated from the moving guide plates 53. The button 82 and the button mounting block 813 pass through the button hole 56. The end of the spring 83 is sleeved on the spring column 816 and the spring latch 55, and two ends of the spring 83 are respectively contacted with the bottom of the second groove 815 and the side wall of the moving boss 51.

When the spring is in an extending state, the third discharging hole 811 and the first discharging hole 92 are staggered, and the moving block 81 enables the rice or the mixed grains in the storage cavity to be incapable of falling. When the button 82 is pressed, the moving block 81 moves toward the middle of the moving groove 58, the spring 83 is compressed until the end of the moving block 81 contacts the moving positioning plate 57, and the third discharging hole 811 is located right below the first discharging hole 92, so that the maximum rice falling amount is achieved. The rice passes through the first discharging hole 92, the third discharging hole 811, the second discharging hole 52 and the discharging hole in sequence, and falls into the drawer 4. After a certain amount of rice falls, the pressing of the button 82 is stopped, the elastic force of the spring 83 is released and drives the button 82 and the moving block 81 to move outwards, the third discharging hole 811 and the first discharging hole 92 are staggered again, and the rice stops falling. The rice in the drawer 4 can be used by pulling out the drawer 4.

In the above technical scheme: as shown in FIGS. 2, 3 and 4, a circle of barrel convex plate 16 is formed at the bottom of the barrel 1, and the barrel convex plate 16 and the outer wall of the barrel 1 form a barrel step. The barrel convex plate 16 is positioned in the rotating seat 5 and clings to the inner wall of the rotating seat 5, and the step of the barrel is contacted with the top surface of the side wall of the rotating seat 5. The barrel body convex plate 16 is provided with a plurality of barrel body mounting holes 17. The bottom of the barrel convex plate 16 is also formed with six first arc-shaped grooves 18, and the first arc-shaped grooves 18 prevent interference with the buttons 82. The side wall of the material storage plate 9 is provided with a plurality of material storage lugs 93, and the material storage lugs 93 are provided with first guide inclined planes. Storage board 9 is located staving 1, and storage lug 93 blocks into staving mounting hole 17, accomplishes the installation of storage board 9 and staving 1, and the inner wall of staving 1 is hugged closely to the lateral wall of storage board 9 this moment. The first guiding inclined plane plays a guiding role in the process that the storage lug 93 is clamped into the barrel body mounting hole 17. The bottom of the side wall of the reservoir plate 9 is formed with six second arcuate slots 94, the second arcuate slots 94 preventing interference with the buttons 82. The bottom of the side wall of the material storage plate 9 is also provided with a circle of material storage positioning plate. The movable guide plate 53 extends to the outer groove wall and the groove bottom of the movable groove 58, a first positioning notch 59 is formed at one end, close to the outer groove wall of the movable groove 58, of the movable guide plate 53, and the storage positioning plate is located in the first positioning notch 59.

In the above technical scheme: as shown in fig. 2, a placement groove 31 is formed in the base 3, an opening 32 is formed at one side of the placement groove 31, and the drawer 4 is located in the placement groove 31 and can be pulled out of the drawer 4 through the opening 32. The tank bottom of standing groove 31 has the regulation hole, and the system has the screens piece in the regulation hole, and system has screens lug 33 on the screens piece, and the system has the screens inclined plane on the screens lug 33. The bottom of the drawer 4 is provided with a limiting groove. The end of the drawer 4 is formed with a handle groove 41. The drawer 4 enters the placing groove from the opening, and the blocking convex block 33 enters the limiting groove. The detent projections 33 and the latching recesses prevent the drawer 4 from accidentally falling out of the base 3. When the drawer 4 is required to be separated from the base 3, a hand is put into the handle groove 41 to apply force outwards; in the process, the clamping convex block 33 is extruded at the bottom of the drawer 4 and inclines downwards, so that the clamping convex block 33 is separated from the limiting groove, the drawer 4 is continuously pulled outwards, and the separation of the drawer 4 and the base 3 is completed.

The foregoing has described in detail preferred embodiments of the present invention. It should be understood that numerous modifications and variations can be devised by those skilled in the art in light of the teachings of the present invention without undue experimentation. Therefore, all should fall into the protection scope of the utility model, the technical scheme that the design of this technical field technical personnel according to the utility model can be obtained through logic analysis, reasoning or limited experiment on prior art's basis, all should fall into.

Claims (8)

1. The rotating mechanism is characterized by comprising a rotating plate (10) and balls (11), wherein a plurality of strip-shaped rolling grooves (101) are formed in the rotating plate (10), strip-shaped rolling holes (102) are formed in the bottoms of the rolling grooves (101), the balls (11) are located in the rolling grooves (101) and can roll and move in the rolling grooves (101), the tops of the balls (11) are located above the rolling grooves (101), and the bottoms of the balls (11) penetrate through the rolling holes (102).

2. A rotating mechanism according to claim 1, wherein a circle of positioning boss (103) is formed at the top of the rolling groove (101), the top of the ball (11) is located above the positioning boss (103), an installation inclined surface (105) is formed at the upper part of the inner wall of the positioning boss (103), the lower part of the inner wall of the positioning boss (103) and the groove wall of the rolling groove (101) jointly form an arc surface, a turning angle (104) is formed between the arc surface and the installation inclined surface (105), and the distance between two opposite turning angles (104) is smaller than the diameter of the ball (11).

3. The rotating rice bucket using the rotating mechanism according to claim 1 or 2, characterized by comprising a bucket body (1), a bucket cover (2) positioned at the top of the bucket body (1), and a connecting piece, a fixed seat (6) and a base (3) which are positioned below the bucket body (1), wherein a drawer (4) is arranged in the base (3) in a sliding manner, the fixed seat (6) is arranged on the base (3), a feed opening is formed in the fixed seat (6) and positioned above the drawer (4), the rotating plate (10) is annular, an annular mounting groove (61) is formed in the fixed seat (6), the rotating plate (10) is positioned in the annular mounting groove (61), the bottom of the ball (11) is in contact with the bottom of the annular mounting groove (61), the connecting piece is positioned above the fixed seat (6), the top of the ball (11) is in contact with the bottom of the connecting piece, the connecting piece can rotate relative to the fixed seat (6), a plurality of groups of discharging mechanisms (8) for opening or closing the discharging opening are arranged in the connecting piece, a plurality of groups of separating plates (1) are arranged on the connecting piece (1), and a plurality of separating plates (7) are arranged in the inner cavity formed between the inner cavity of the connecting piece (7), the top of the barrel body (1) is correspondingly provided with a plurality of feed inlets which are communicated with the material storage cavity.

4. The rotating rice bucket according to claim 3, wherein the inner wall of the bucket body (1) is provided with a plurality of groups of mounting blocks, each mounting block comprises two mounting convex strips (12), a mounting clamping groove (121) is formed between the two mounting convex strips (12), each mounting block extends to the top surface of the inner cavity, the top of the bucket body (1) is provided with a bucket body convex block (13) which protrudes downwards, the bucket body convex block (13) enables the mounting blocks to be provided with a first positioning groove (14), the center of the bottom of the bucket body convex block (13) is also provided with a first positioning convex block (15), the bucket body convex block (13) is provided with a bucket cover groove (131) for placing the bucket cover (2), and the feeding port is positioned at the bottom of the bucket cover groove (131);

a second positioning groove (73) is formed in the top of the partition plate (7), an insertion convex plate (71) is formed in the side face and the top of the partition plate (7) and the groove wall and the groove bottom of the second positioning groove (73), a second positioning convex block (72) is formed in the insertion convex plate (71), the first positioning convex block (15) is located in the second positioning groove (73), the insertion convex plate (71) is clamped into the installation clamping groove (121), and the second positioning convex block (72) is clamped into the first positioning groove (14), so that the partition plate (7) is installed on the inner wall of the barrel body (1);

the partition plate (7) comprises a first partition sheet, a second partition sheet and a third partition sheet, an upper clamping groove is formed in the middle of the first partition sheet, a lower clamping groove is formed in the middle of the second partition sheet, a first clamping groove and a second clamping groove are formed in the middle of the third partition sheet, and the upper clamping groove, the lower clamping groove, the first clamping groove and the second clamping groove enable the first partition sheet, the second partition sheet and the third partition sheet to be mutually clamped.

5. The rotating rice bucket according to claim 3, wherein the connecting member comprises a material storage plate (9) and a rotating base (5) located below the material storage plate (9), a plurality of guide grooves (91) are formed in the material storage plate (9), a first discharge hole (92) is formed in each guide groove (91), a moving groove (58) is formed in each rotating base (5), a moving boss (51) is formed in the middle of each moving groove (58), the wall of each moving groove (58) far away from the moving boss (51) is an outer wall, a plurality of moving positioning blocks are arranged on each rotating base (5), each moving positioning block comprises a second discharge hole (52) located on each moving boss (51), moving guide plates (53) located on two sides of each second discharge hole (52), a spring clamping block (55) located on the side wall of each moving boss (51), a button hole (56) located on the outer wall of each moving groove (58) and a moving positioning plate (57) located on each moving boss (51), a moving clamping block (54) is formed at the top of each moving guide plate (53), and two moving clamping blocks (54) are oppositely arranged on each moving clamping block.

6. The rotating rice bucket according to claim 5, wherein said discharging mechanism (8) comprises a moving block (81), a button (82) and a spring (83), said moving block (81) is formed with a third discharging hole (811), one end of said moving block (81) is formed with a bending plate (812), said bending plate (812) is formed with a button mounting block (813), said button mounting block (813) is formed with a first groove (814), a groove bottom of said first groove (814) is formed with a second groove (815), a middle portion of said second groove (815) is formed with a hollow spring post (816), a groove bottom of said second groove (815) is further formed with an insertion hole, said insertion hole is in the shape of a circular truncated cone and is located in said spring post (816), said button (82) is formed with an insertion block (821), said insertion block (821) is in the shape of a circular truncated cone, said insertion block (821) is inserted in said insertion hole, said button (82) is further formed with a third positioning notch (817), said button mounting block (822) is formed with a corresponding second positioning notch (817), and said third positioning notch (817) is located in said second positioning block (813);

the moving block (81) is clamped between the two moving guide plates (53), the moving clamping block (54) is located above the moving block (81), the button (82) and the button mounting block (813) penetrate through the button hole (56), the end part of the spring (83) is sleeved on the spring column (816) and the spring clamping block (55), and two ends of the spring (83) are respectively contacted with the groove bottom of the second groove (815) and the side wall of the moving boss (51);

when the spring is in an extension state, the third discharge hole (811) and the first discharge hole (92) are staggered; when the button (82) is pressed, the moving block (81) moves towards the middle of the moving groove (58), the spring (83) is compressed until the end part of the moving block (81) is in contact with the moving positioning plate (57), and at the moment, the third discharge hole (811) is positioned right below the first discharge hole (92).

7. The rotating rice bucket according to claim 5, wherein a circle of bucket body convex plate (16) is formed at the bottom of the bucket body (1), the bucket body convex plate (16) and the outer wall of the bucket body (1) form a bucket body step, the bucket body convex plate (16) is positioned in the rotating seat (5) and clings to the inner wall of the rotating seat (5), the bucket body step is contacted with the top surface of the side wall of the rotating seat (5), and a plurality of bucket body mounting holes (17) are formed on the bucket body convex plate (16);

the side wall of the storage plate (9) is provided with a plurality of storage lugs (93), the storage lugs (93) are provided with first guide inclined planes, the storage lugs (93) are clamped in the barrel body mounting holes (17), the side wall of the storage plate (9) is tightly attached to the inner wall of the barrel body (1), and the bottom of the side wall of the storage plate (9) is provided with a circle of storage positioning plate;

the movable guide plate (53) extends to the outer groove wall and the groove bottom of the movable groove (58), a first positioning notch (59) is formed in one end, close to the outer groove wall of the movable groove (58), of the movable guide plate (53), and the material storage positioning plate is located in the first positioning notch (59).

8. The rotating rice bucket according to claim 3, wherein a placing groove (31) is formed in the base (3), an opening (32) is formed in one side of the placing groove (31), the drawer (4) is positioned in the placing groove (31), the drawer (4) can be pulled out through the opening (32), an adjusting hole is formed in the bottom of the placing groove (31), a clamping block is formed in the adjusting hole, a clamping convex block (33) is formed on the clamping block, a clamping inclined plane is formed on the clamping convex block (33), a limiting groove is formed in the bottom of the drawer (4), the clamping convex block (33) is positioned in the limiting groove, and a handle groove (41) is formed in the end of the drawer (4).

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