CN217865730U - Rice bucket - Google Patents

Abstract

The utility model provides a rice bucket, including rice bucket main part, be provided with the rice storehouse in the rice bucket main part, rice bucket still includes: the rice measuring bin is arranged in the rice bucket main body and is positioned below the rice bin so as to be selectively communicated with the rice bin; the rice bucket further comprises a control part, wherein the control part comprises a first stopping arm and a second stopping arm, the first stopping arm is located above the rice measuring bin, the first stopping arm is provided with a first rice taking opening, the second stopping arm is arranged below the rice measuring bin, the second stopping arm is provided with a second rice taking opening, and the control part can move relative to the rice measuring bin so that the first rice taking opening and the second rice taking opening are communicated with the rice measuring bin. The utility model discloses a rice bucket can realize that the ration is got rice.

Description

Rice bucket

Technical Field

The utility model relates to a store up grain utensil technical field, more specifically relates to a rice bucket.

Background

The rice is taken as the traditional staple food and is deeply liked by people. In a household, grains such as rice and millet are stored, and therefore, a rice storage appliance gradually enters a kitchen, such as a rice bucket or a rice jar. At present, the rice is got through button switch or push rod realization to partial rice bucket, but, getting the rice in-process, the operation is very inconvenient and can't get the rice by ration.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a rice bucket gets rice easy operation, and can get rice in a quantitative way.

In view of the above-mentioned objects, the present disclosure provides the following technical solutions:

according to the utility model discloses an aspect provides a rice bucket, including rice bucket main part, be provided with the rice bin in the rice bucket main part, rice bucket still includes: the rice measuring bin is arranged in the rice bucket main body and is positioned below the rice bin so as to be selectively communicated with the rice bin; control part, including first backstop arm and second backstop arm, first backstop arm is located the top in meter storehouse, first backstop arm is provided with the first meter mouth of getting, second backstop arm set up in the below in meter storehouse, second backstop arm is provided with the second and gets the meter mouth, control part sets up to for meter storehouse removes, so that the first meter mouth of getting with the second get one in the meter mouth with meter storehouse intercommunication. When rice is stored in the rice bin, the rice measuring bin can receive the rice from the rice bin, and the rice can be taken out from the rice measuring bin through the movement control part. Specifically, when the first rice taking port is communicated with the rice measuring bin, rice can enter the rice measuring bin from the rice bin, and when the second rice taking port is communicated with the rice measuring bin, the rice can flow out of the rice measuring bin for connection, and the used rice is the rice stored in the rice measuring bin.

According to the utility model discloses an on the other hand, the bottom in volume rice storehouse is provided with the second and goes out rice mouth, the rice bucket still includes the rice cup, rice bucket main part is provided with rice cup portion of holding, rice cup portion of holding is located the below of second play rice mouth, the rice cup configuration is: when the rice cup is located at the preset position of the rice cup accommodating part, the rice cup drives the control part to move, so that the second rice taking opening and the second rice outlet are arranged in an aligned mode, and the rice measuring bin is communicated with the rice cup. The rice cup can be used for driving the control part to move so as to enable the rice measuring bin to be communicated with the rice cup, rice can enter the rice cup, and the rice cup can be used for driving and can be used as a rice containing appliance.

According to an aspect of the utility model, the control part in first position and second position slidable set up in the rice bucket main part, work as the rice cup is located during the preset position of rice cup portion of holding, the control part is located the second position, the second get rice mouth with the setting of counterpointing of second rice mouth. At the moment, the rice can flow out of the rice measuring bin and enter the rice cup, and a passage from the rice measuring bin to the rice measuring bin is blocked.

According to the utility model discloses an aspect, the bottom in rice storehouse is provided with first rice mouth, works as the rice cup leaves during the preset position of rice cup portion of holding, the control part is located first position, first rice mouth with first rice mouth of getting is counterpointed and is set up, the rice storehouse with meter storehouse intercommunication. At the moment, the rice can enter the rice measuring bin from the rice bin, and a passage from the rice measuring bin to the rice cup is blocked.

According to an aspect of the present invention, a waist-shaped sinking groove is concavely formed on the top surface of the second stopping arm, the second rice outlet is located in the waist-shaped sinking groove and is arranged near the first end of the waist-shaped sinking groove, and when the second rice outlet and the second rice outlet are arranged in a contraposition manner, the rice measuring bin is communicated with the outside; when the bottom end of the second rice outlet is attached to the second end of the waist-shaped sinking groove, the waist-shaped sinking groove plugs the second rice outlet. The sink can limit the stroke of the rice bin, so that the rice bin has a limiting effect and is convenient for a user to operate.

According to an aspect of the invention, the first stop arm and the second stop arm are arranged in parallel. The rice measuring bin is arranged between the first stop arm and the second stop arm, and the rice measuring bin can be prevented from interfering the movement of the control part.

According to the utility model discloses an aspect, rice bucket main part is provided with the guiding hole seat, the control part includes the guide post section of thick bamboo, guide post section of thick bamboo slidable with the guiding hole seat cooperation is connected, the control part still includes the elastic component that resets, the elastic component compression that resets is supported the guide post section of thick bamboo with between the guiding hole seat. The elastic piece can make the control part automatically move from the first position to the second position after taking the rice, and stop taking the rice, and the process is an automatic rebound process, which is convenient for users to use.

According to the utility model discloses an aspect, the control part still includes the promotion portion, the promotion portion is including promotion portion main part and connecting rod, the connecting rod is fixed in on the guide post section of thick bamboo, promotion portion main part is followed the connecting rod extends to in the rice cup portion of holding, promotion portion main part is provided with the binding face of laminating with rice cup outer wall. The accessible promotes rice cup and promotes the control part and remove, and the binding face of promotion portion main part can make promotion portion main part self and rice cup stably laminate, prevents to remove the in-process, and the rice cup is from the contact surface slippage with the control part.

According to an aspect of the utility model, be provided with a pair of guide way that parallel and interval set up in the rice bucket main part, the second backstop arm sets up in a pair of between the guide way, the extending direction of guide way is on a parallel with the moving direction of control portion. The guide groove has a guiding function, and the control part can integrally and stably move along a preset direction.

According to an aspect of the utility model, the control part still includes the control part main part, the control part main part connect in first backstop arm with between the second backstop arm, just the control part main part set up in the rice bucket main part, first backstop arm with the second backstop arm is followed the control part main part orientation the top of rice glass portion of holding extends. The control portion main body may be configured to connect the first stopper arm and the second stopper arm.

Drawings

The above and/or other objects and advantages of the present invention will become more apparent from the following description of the embodiments taken in conjunction with the accompanying drawings, in which:

fig. 1 is a longitudinal sectional view of a rice bucket according to an exemplary embodiment of the present invention.

Fig. 2 is a structural diagram of the rice bin in fig. 1.

Fig. 3 is a structural diagram of the control unit in fig. 1.

FIG. 4 is a structural view of the support base in FIG. 1

FIG. 5 is a view showing the structure of the supporter in FIG. 1

Fig. 6 is a structural view of the pushing part in fig. 1.

Description of reference numerals:

100. a rice bucket main body; 110. a first rice outlet; 120. a rice bin; 130. a guide hole seat; 140. a support body; 1401. a support body main body; 1402. a first through hole; 150. a supporting seat; 1501. a guide groove; 1502. a second through hole; 1503. a support base main body; 200. a rice measuring bin; 210. a second rice outlet; 300. a control unit; 310. a first stopper arm; 311. a first rice taking port; 320. a second stop arm; 321. a second rice taking port; 322. sinking a groove; 330. a control unit main body; 340. a pushing part; 3401. a pushing part main body; 3402. a connecting rod; 350. a guide column sleeve; 360. a restoring elastic member; 500. a base; 600. a rice cup; 700. and (4) a pin.

Detailed Description

Example embodiments will now be described more fully with reference to the accompanying drawings. However, it should not be understood that the embodiments of the present invention are limited to the embodiments set forth herein. The same reference numerals in the drawings denote the same or similar structures, and thus a detailed description thereof will be omitted.

The utility model provides a rice bucket, the following will refer to fig. 1 to 6 detailed description according to the utility model discloses a specific structure of rice bucket of embodiment. In the drawings, like numbering represents like elements throughout.

Fig. 1 is a longitudinal sectional view of a rice bucket according to an exemplary embodiment of the present invention. Fig. 2 is a structural diagram of the rice bin in fig. 1. Fig. 3 is a structural diagram of the control unit in fig. 1. The utility model discloses a rice bucket can be used to hold common grain, for example rice, millet etc. or other granular food, for example maize class, sorghum etc.. The disclosure will be described by taking the case that rice can be contained in the rice bucket, but not limited to this case.

As shown in fig. 1 to 3, a rice bucket is provided, the rice bucket includes a rice bucket main body 100, a rice bin 120 is provided in the rice bucket main body 100, and a first rice outlet 110 is provided at the bottom of the rice bin 120, so that grains in the rice bin 120 can flow out through the first rice outlet 110 for making delicates.

The rice bucket further comprises a rice measuring bin 200, and the rice measuring bin 200 is arranged in the rice bucket main body 100 and located below the rice bin 120 so as to be selectively communicated with the rice bin 120.

The rice bucket further comprises a control part 300 which comprises a first stopping arm 310 and a second stopping arm 320, wherein the first stopping arm 310 is located above the rice measuring bin 200, the first stopping arm 310 is provided with a first rice taking port 311, the second stopping arm 320 is arranged below the rice measuring bin 200, the second stopping arm 320 is provided with a second rice taking port 321, and the control part 300 is arranged to be capable of moving relative to the rice measuring bin 200 so that one of the first rice taking port 311 and the second rice taking port 321 is communicated with the rice measuring bin 200.

The rice bucket provided by the present disclosure has an internal rice bin 120 for storing grain, and by making the control part 300 move relative to the rice bucket main body 100, the rice measuring bin 200 can be communicated with the rice bin 120, so that the grain can be conveniently measured quantitatively. Specifically, the bottom of the rice bin 120 is provided with a first rice outlet 110, and the lower part of the rice measuring bin 200 is provided with a second rice outlet 210.

When the first rice taking port 311 and the first rice outlet 110 are arranged in a contraposition, the rice measuring bin 200 is communicated with the rice measuring bin 120, grains stored in the rice measuring bin 120 can flow into the rice measuring bin 200 under the action of gravity, at the moment, the second rice outlet 210 is in a blocking state, namely the second rice taking port 321 is not communicated with the rice measuring bin 200, and the rice measuring bin 200 is in a rice feeding state. If the control part 300 is not moved any more, the rice bin 200 will be filled.

When the second rice outlet 321 and the second rice outlet 210 are aligned, the grains in the rice measuring bin 200 can leave the rice measuring bin 200 through the second rice outlet 210 under the action of gravity, so as to leave the rice bucket, the first rice outlet 311 and the first rice outlet 110 are arranged in a staggered manner, namely the first rice outlet 311 is not communicated with the rice measuring bin 200, and the rice measuring bin 200 is in a rice releasing state. If the mobile control part 300 is not moved any more, the rice measuring bin 200 is emptied, and the rice measuring bin 200 is changed from the full state to the empty state, so that the quantitative rice taking can be realized.

In this embodiment, the rice measuring bin 200 is in the shape of an open funnel with two openings, and the first rice outlet 110 can be in the shape of a circle or other shapes, in this embodiment, it is in the shape of a long strip, as shown in fig. 2. When using the utility model discloses a rice bucket, accessible mobile control portion 300 makes the first oral area intercommunication of getting rice mouth 311 and the upper portion of measuring rice storehouse 200 on the first retaining arm 310, and during rice can get into measuring rice storehouse 200 from rice storehouse 120 this moment, the rice volume that gets into measuring rice storehouse 200 can freely be controlled. When the amount of rice entering the rice measuring bin 200 reaches a predetermined amount of rice, the control part 300 is moved to communicate the second rice taking port 321 of the second stopping arm 320 with the rice measuring bin 200, at this time, the first rice taking port 311 is dislocated from the rice measuring bin 200, the rice bin 120 stops feeding rice into the rice measuring bin 200, and the rice flows out from the rice measuring bin 200 through the second rice taking port 321. At the moment, the flowing rice is taken out by a container, so that the rice can be taken out quantitatively.

As an example, the rice bin 120 may have a cylindrical structure with an oval cross section, an observation hole may be formed on an outer side of a sidewall of the cylinder to observe the inside of the rice bin 120, and a raised bin wall with a matching shape may be connected to a top wall of the cylinder to expand the volume of the rice bin 120. In order to prevent impurities from entering the rice bin 120, a bin cover can be arranged at the top of the rice bin 120.

Specifically, the rice bucket further comprises a rice cup 600, the rice bucket body 100 is provided with a rice cup accommodating part, the rice cup accommodating part is located below the second rice outlet 210, and the rice cup 600 is configured as follows: when the rice cup 600 is located at a predetermined position of the rice cup accommodating part, the rice cup 600 drives the control part 300 to move, so that the second rice taking port 321 and the second rice outlet 210 are arranged in an aligned manner, and the rice measuring bin 200 is communicated with the rice cup 600.

The rice cup 600 drives the control part 300 to move relative to the rice bucket main body 100, so that the rice bucket is simple and convenient to operate.

As an example, the rice cup receiving part may be formed by a horizontal depression of the rice bucket body 100 so that the rice cup 600 can be horizontally moved to enter and exit the rice cup receiving part, and the operation is convenient. The user can indirectly push the control part 300 to move by pushing the rice cup 600, and the rice cup 600 can also be used as a driving part to drive the control part 300 while being used as a rice container. A base 500 may be formed below the rice cup receiving part to support the entire rice bucket, but not limited thereto.

The rice cup 600 may have a cup shape to receive the rice flowing out of the second rice-taking outlet 321.

In this embodiment, the position of the control unit 300 when the first meter access opening 311 is aligned with the first meter access opening 110 may be referred to as a first position, and the position of the control unit 300 when the second meter access opening 321 is aligned with the second meter access opening 210 may be referred to as a second position. In this embodiment, the control part 300 is reciprocally moved between the first position and the second position with respect to the rice bucket body 100.

When the rice cup 600 leaves the predetermined position of the rice cup accommodating part, the control part 300 is located at the first position, at this time, the first rice outlet 110 and the first rice taking outlet 311 are arranged in a contraposition, and the rice bin 120 is communicated with the rice measuring bin 200. When the rice cup 600 is located at the predetermined position of the rice cup accommodating part, the control part 300 is located at the second position, and at this time, the second rice taking port 321 and the second rice outlet 210 are aligned. That is, when the control part 300 is located at the first position, the rice flows from the rice bin 120 into the rice bin 200, and when the control part 300 is located at the second position, the rice flows from the rice bin 200 into the rice cup 600.

In order to facilitate the user to operate the control part 300, improve the moving accuracy of the control part 300, and enable the control part 300 to stably move, as shown in fig. 3, a waist-shaped sinking groove 322 is concavely provided on the top surface of the second stopper arm 320, and the bottom end of the second rice outlet 210 can be attached to the bottom of the waist-shaped sinking groove 322, so that the moving stroke of the control part 300 relative to the rice bucket main body 100 is limited by the waist-shaped sinking groove 322.

The second rice outlet 321 is positioned in the waist-shaped sinking groove 322 and is arranged close to the first end of the waist-shaped sinking groove 322, and when the second rice outlet 210 and the second rice outlet 321 are arranged in an opposite position, the rice measuring bin 200 is communicated with the outside; when the bottom end of the second rice outlet 210 is attached to the second end of the waist-shaped sinking groove 322, the waist-shaped sinking groove 322 plugs the second rice outlet 210.

As an example, the first stopping arm 310 and the second stopping arm 320 are arranged in parallel, and the rice bin 200 is positioned between the first stopping arm 310 and the second stopping arm 320, so as to avoid the movement interference of the rice bin 200 and the control part 300. As an example, the distance between the first stopping arm 310 and the second stopping arm 320 matches the height of the rice bin 200, that is, the first stopping arm 310 and the second stopping arm 320 stop at the top and the bottom of the rice bin 200 respectively, and the bottom of the rice bin 200 is located in the waist-shaped sinking groove 322.

Under initial condition, control portion 300 is located the first position for rice bucket main part 100, first get rice mouth 311 and first rice mouth 110 counterpoint setting, grain in the rice bin 120 can get into meter storehouse 200 through first rice mouth 110 under the action of gravity in, the second rice mouth 210 gets meter mouth 321 dislocation set with the second this moment, the laminating of the second end of waist type heavy groove 322 and the bottom of second rice mouth 210 is gone out to the shutoff second rice mouth 210, meter storehouse 200 is in into the rice state, it is full to meter storehouse 200.

When rice needs to be taken, the rice cup 600 can be pushed to push the control part 300 to move, so that the control part 300 is located at the second position relative to the rice barrel main body 100, the first rice taking port 311 and the first rice outlet 110 are arranged in a staggered mode, the rice feeding into the rice bin 200 is stopped, the second rice outlet 210 and the second rice taking port 321 are arranged in a counterpoint mode, the rice bin 200 is in a rice placing state, and the grains in the rice bin 200 enter the rice cup 600 through the second rice taking port 321.

When the rice taking is finished, the control part 300 can move to the first position in the reverse direction, and the second end of the waist-shaped sinking groove 322 is attached to the bottom end of the second rice outlet 210 again. When the control part 300 is restored to the original position, the second end of the waist-shaped sinking groove 322 can have a stopping function for the second rice outlet 210. In addition, the waist type sinking groove 322 guides and positions the movement of the control part 300 during the movement of the control part 300 between the first position and the second position relative to the rice bucket body 100.

In order to enable the control part 300 to automatically restore to the original position and block the second rice outlet 210 after the rice is taken out, as shown in fig. 1 to 5, the rice bucket body 100 is provided with a guide hole seat 130, the control part 300 includes a guide cylinder 350, the guide cylinder 350 is slidably connected with the guide hole seat 130 in a matching manner, the control part 300 further includes a reset elastic member 360, and the reset elastic member 360 is compressed and supported between the guide cylinder 350 and the guide hole seat 130.

As an example, the rice bucket main body 100 further comprises a support body 140, the support body 140 comprises a support body 1401, the top shape of the support body 1401 is matched with the rice bin 120 and can be used for bearing the rice bin 120, the top of the support body 1401 partially extends downwards to form an arc-shaped side wall, a guide hole seat 130 is formed on one side surface of the side wall facing the control part 300, and the guide hole seat 130 can be cylindrical or in other shapes, so that the guide cylinder 350 can stably move in the guide hole seat 130 during the movement of the control part 300, the control part 300 is prevented from angular deflection during the movement, and the movement stability of the control part 300 is improved.

The rice bucket further comprises a supporting seat 150, the supporting seat 150 comprises a supporting seat main body 1503, the supporting body 140 and the supporting seat 150 are mutually connected, the top of the supporting body main body 1401 is clamped on the top of the supporting seat main body 1503, and the control part 300 and the rice measuring bin 200 are located between the supporting body 140 and the supporting seat 150. The top of the support body 1503 extends downwards to form a support side plate, and two ends of the elastic restoring element 360 respectively abut against the support side plate and the side wall of the support body 1401.

When the rice cup 600 pushes the control part 300 to take rice, the guide cylinder 350 moves towards the guide hole seat 130, the reset elastic piece 360 is compressed, and when the rice cup 600 leaves a preset position after taking rice, the reset elastic piece 360 can push the control part 300 to return to the original position to stop taking rice. It should be noted that the supporting base 150 is further provided with a second through hole 1502 communicated with the rice cup 600, and the supporting body 140 is provided with a first through hole 1402 communicated with the first rice outlet 110.

In order to realize the movement of the control part 300 by driving the rice cup 600, as shown in fig. 1 to 6, the control part 300 further includes a push part 340, the push part 340 includes a push part body 3401 and a connecting rod 3402, the connecting rod 3402 is fixed to the guide column tube 350, the push part body 3401 extends from the connecting rod 3402 into the rice cup receiving part, and the push part body 3401 is provided with an abutting surface abutting against an outer wall of the rice cup 600.

As an example, the connecting rod 3402 may be fixedly connected with the guide cylinder 350 through the support side plate, for example, the two may be connected by a pin 700, but is not limited to this connection. The binding surface may be an arc shape, matching with the shape of the outer wall of the rice cup 600, preventing the control part 300 from deflecting during the process of pushing the control part 300 by the rice cup 600, and stably driving the control part 300 to move.

In order to further enhance the moving smoothness of the control part 300, the rice bucket body 100 is provided with a pair of guide slots 1501 which are arranged in parallel and at intervals, the second stop arm 320 is arranged between the pair of guide slots 1501, and the extending direction of the guide slots 1501 is parallel to the moving direction of the control part 300. Specifically, the guide groove 1501 is formed in the support base body 1503, and when the control unit 300 is driven to move by the rice cup 600, the second stopper arm 320 moves in the guide groove 1501, thereby providing excellent movement reliability.

Specifically, the control part 300 further includes a control part main body 330, the control part main body 330 is connected between the first and second stopper arms 310 and 320, and the control part main body 330 is disposed in the rice bucket main body 100, and the first and second stopper arms 310 and 320 extend from the control part main body 330 toward the upper side of the rice cup accommodating part.

As an example, the control part main body 330 may be a thin plate shape, the first and second stopper arms 310 and 320 are at right angles to the control part main body 330 and extend toward the upper side of the rice cup receiving part, and the first and second stopper arms 310 and 320 may integrally move with the control part main body 330 when the rice cup 600 moves in the rice cup receiving part.

In order to increase the stability of the rice bucket, the bottom ends of the side walls of the support side plates and the support body 1401 are respectively connected to the base 500, the rice cup accommodating part is formed between the base 500 and the support base 150, and the rice cup 600 is disposed on the base 500 and can move on the base 500.

To sum up, the utility model provides a rice bucket, rice bucket include control part 300, control part 300 includes first backstop arm 310 and second backstop arm 320, first backstop arm 310 can be used to the first rice mouth 110 of shutoff, second backstop arm 320 can be used to the second rice mouth 210 of shutoff volume rice storehouse 200, when need not get rice, first rice mouth 110 can communicate with volume rice storehouse 200, volume rice storehouse 200 is in into rice state, at this moment, second rice mouth 210 and second are got rice mouth 321 dislocation set, second backstop arm 320 shutoff second rice mouth 210. When taking rice, the control part 300 is pushed by the rice cup 600 to drive the first stopping arm 310 and the second stopping arm 320 to move, at the moment, the first rice outlet 110 and the first rice outlet 311 are arranged in a staggered mode, the first stopping arm 310 blocks the first rice outlet 110, the second stopping arm 320 opens the second rice outlet 210, the rice can flow out of the rice cup 600 from the second rice outlet 210 through the second through hole 1502, when the preset rice amount is reached, the rice cup 600 can be taken away, and the rice can be taken quantitatively. The utility model discloses a rice bucket convenient operation, and can the ration get rice, convenient to use has improved user's use and has experienced.

In the description of the present disclosure, it is to be understood that the terms "center", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on those shown in the drawings, merely for convenience in describing the present disclosure and simplifying the description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and therefore, should not be construed as limiting the present disclosure.

In the description of the present disclosure, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present disclosure can be understood in specific instances by those of ordinary skill in the art.

Embodiments of the present application are described above with reference to the drawings. However, it is to be understood that the disclosed embodiments are merely intended to be examples that may be embodied in various and alternative forms. Specific structural and functional details disclosed are not to be interpreted as limiting, but as a representative basis for teaching one skilled in the art how to practice the disclosed concepts.

Claims (10)

1. The utility model provides a rice bucket, includes rice bucket main part (100), be provided with rice bin (120) in rice bucket main part (100), its characterized in that, rice bucket still includes:

a rice measuring bin (200) which is arranged in the rice bucket main body (100) and is positioned below the rice bin (120) so as to be selectively communicated with the rice bin (120);

the control part (300) comprises a first stopping arm (310) and a second stopping arm (320), the first stopping arm (310) is positioned above the rice measuring bin (200), the first stopping arm (310) is provided with a first rice taking opening (311), the second stopping arm (320) is arranged below the rice measuring bin (200), the second stopping arm (320) is provided with a second rice taking opening (321),

the control part (300) is arranged to be capable of moving relative to the rice measuring bin (200) so as to enable one of the first rice taking opening (311) and the second rice taking opening (321) to be communicated with the rice measuring bin (200).

2. The rice bucket according to claim 1, wherein the bottom of the rice measuring bin (200) is provided with a second rice outlet (210), the rice bucket further comprises a rice cup (600), the rice bucket body (100) is provided with a rice cup accommodating part, the rice cup accommodating part is positioned below the second rice outlet (210), and the rice cup (600) is configured to:

when the rice cup (600) is located at the preset position of the rice cup accommodating part, the rice cup (600) drives the control part (300) to move, so that the second rice taking port (321) and the second rice outlet (210) are arranged in a contraposition mode, and the rice measuring bin (200) is communicated with the rice cup (600).

3. The rice bucket of claim 2, wherein the control part (300) is slidably provided on the rice bucket body (100) at a first position and a second position, when the rice cup (600) is located at a predetermined position of the rice cup accommodating part, the control part (300) is located at the second position, and the second rice taking outlet (321) is aligned with the second rice outlet (210).

4. The rice bucket according to claim 3, wherein a first rice outlet (110) is arranged at the bottom of the rice bin (120), when the rice cup (600) leaves a preset position of the rice cup accommodating part, the control part (300) is positioned at the first position, the first rice outlet (110) is aligned with the first rice taking outlet (311), and the rice bin (120) is communicated with the rice measuring bin (200).

5. The rice bucket according to claim 2, wherein the second stopping arm (320) is concavely provided with a waist-shaped sunken groove (322) on the top surface, the second rice taking port (321) is positioned in the waist-shaped sunken groove (322) and is arranged near the first end of the waist-shaped sunken groove (322),

when the second rice outlet (210) and the second rice taking outlet (321) are arranged in an aligned mode, the rice measuring bin (200) is communicated with the outside;

when the bottom end of the second rice outlet (210) is attached to the second end of the waist-shaped sinking groove (322), the waist-shaped sinking groove (322) blocks the second rice outlet (210).

6. The rice bucket of claim 1, wherein the first stop arm (310) and the second stop arm (320) are arranged in parallel.

7. The rice bucket according to claim 2, wherein the rice bucket body (100) is provided with a guide hole seat (130), the control part (300) comprises a guide cylinder (350), the guide cylinder (350) is slidably matched and connected with the guide hole seat (130), the control part (300) further comprises a reset elastic piece (360), and the reset elastic piece (360) is supported between the guide cylinder (350) and the guide hole seat (130) in a compression mode.

8. The rice bucket according to claim 7, wherein the control part (300) further comprises a push part (340), the push part (340) comprising a push part body (3401) and a connecting rod (3402), the connecting rod (3402) being fixed to the guide column tube (350), the push part body (3401) extending from the connecting rod (3402) into the rice cup receiving part, the push part body (3401) being provided with an abutting surface abutting against an outer wall of the rice cup (600).

9. The rice bucket of claim 2, wherein a pair of guide grooves (1501) are formed in the rice bucket body (100) in parallel and at an interval, the second stopper arm (320) is disposed between the pair of guide grooves (1501), and the guide grooves (1501) extend in a direction parallel to the moving direction of the control part (300).

10. The rice bucket of claim 2, wherein the control part (300) further comprises a control part main body (330), the control part main body (330) is connected between the first and second stopper arms (310, 320), and the control part main body (330) is disposed in the rice bucket main body (100), and the first and second stopper arms (310, 320) extend from the control part main body (330) toward the upper side of the rice cup receptacle.

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