CN211070191U - Fresh rice machine - Google Patents

Abstract

The utility model relates to a fresh rice machine, which comprises a shell, a rice storage module, a rice hulling module and a lifting module; the grain storage module is arranged at the lower part in the shell and comprises a grain bin and a grain box; the grain box is detachably arranged in the grain bin; the lower end of the grain bin is opened, and the grain hulling module is arranged at the upper part in the shell and used for hulling rice; the lifting module comprises a vertical shell and a lifting piece arranged in the shell in a lifting way; the lower part of the shell is provided with a grain inlet, and the upper part of the shell is provided with a grain outlet; the lifting piece can receive the unhulled rice at the unhulled rice inlet and lift the unhulled rice to the unhulled rice outlet. The grain box is arranged at the lower part in the shell, and when the grain box is replaced, the grain box does not need to be lifted to the upper part of the shell, so that the replacement of the grain box in the shell is convenient. And when the grain box is arranged at the lower part of the shell, the gravity center height of the whole fresh rice machine is effectively reduced, so that the fresh rice machine is more stably arranged.

Description

Fresh rice machine

Technical Field

The utility model relates to a bright rice machine field, in particular to bright rice machine.

Background

People eat food as day and eat food as first. The safety problem of food has been a concern of people. With the development of market economy and the improvement of living standard of people, the requirements of people on the sanitation, nutrition and color of grains are gradually improved. The existing fresh rice machine can be used for processing grains into rice by hulling and grinding the grains on site so as to obtain the fresh rice which is ground on site, and the method greatly preserves the nutrient components of the rice. The fresh rice machine comprises a rice box for storing rice, and after the rice in the rice box is completely discharged, the rice box in the fresh rice machine is replaced manually, so that the continuous supply of the rice in the fresh rice machine is realized. The rice box is filled with rice, so that the rice box is heavy. The grain box in the prior art is high in installation height, and when the grain box is replaced, the grain box needs to be moved to a high position, so that manual replacement is inconvenient.

SUMMERY OF THE UTILITY MODEL

The main object of the utility model is to provide a fresh rice machine to solve prior art, the millet casket height is higher, the not easy to replace problem.

In order to solve the technical problem, the utility model adopts the following technical scheme:

according to one aspect of the utility model, the utility model provides a fresh rice machine, which comprises a shell, a rice storage module, a rice hulling module and a lifting module; the grain storage module is arranged at the lower part in the shell and comprises a grain bin and a grain box; the grain box is used for storing rice and is detachably arranged in the grain bin; the lower end of the granary is provided with an opening for discharging the rice in the rice box; the lifting module comprises a vertical shell and a lifting piece arranged in the shell in a lifting way; the lower part of the shell is provided with a grain inlet, and the upper part of the shell is provided with a grain outlet; the grain inlet is communicated with the lower end opening of the granary and is used for receiving the rice in the grain box; the lifting piece can receive rice at the rice inlet and lift the rice to the rice outlet; the rice hulling module is arranged at the upper part in the shell; the rice hulling module is connected with the rice outlet of the lifting module so as to receive rice discharged from the rice outlet and carry out rice hulling processing.

Optionally, the lifting module further comprises a conveyor belt and a rotating shaft for driving the conveyor belt to circularly move in a vertical plane; the lifting piece comprises a plurality of hoppers which are distributed on the periphery of the conveying belt and lift in the shell along with the movement of the conveying belt.

Optionally, the hopper is a hollow structure with an opening at one end, and the plurality of hoppers are uniformly distributed on the periphery of the conveying belt along the moving direction of the conveying belt.

Optionally, the grain inlet and the grain outlet are respectively aligned with two relatively moving side edges of the conveying belt; when the hopper is close to one side of the grain inlet, the opening of the hopper is upward, and when the hopper is moved to be close to one side of the grain outlet, the opening of the hopper is downward.

Optionally, the fresh rice machine further comprises a guiding module, wherein the guiding module comprises a grain hopper and a slideway; the upper end and the lower end of the grain hopper are both opened to form a channel for moving the rice, the grain hopper is connected to the opening at the lower end of the granary, and the channel of the grain hopper is of a structure with a wide upper part and a narrow lower part so as to gather the rice at the bottom of the grain hopper; the slideway is connected below the grain hopper and is butted with a grain inlet of the lifting module; the slideway is arranged in a downward inclined manner in the direction from the grain hopper to the grain inlet so as to enable the rice to slide into the grain inlet.

Optionally, a grain outlet gate mechanism is arranged at an opening at the lower end of the grain hopper, the grain outlet gate mechanism includes a grain outlet gate and a grain outlet driving unit for driving the grain outlet gate to move, and the grain outlet gate horizontally moves under the driving of the grain outlet driving unit to open or close the opening at the lower end of the grain hopper.

Optionally, the grain discharging gate mechanism further comprises a screw rod driven by the grain discharging driving unit to rotate, and a limiting member fixed at an opening at the lower end of the grain hopper; the limiting piece is horizontally arranged, and the grain outlet gate is limited on the limiting piece and can horizontally move relative to the limiting piece; the screw rod is in threaded connection with the grain outlet gate so as to drive the grain outlet gate to horizontally slide along the limiting piece.

Optionally, a weighing mechanism is arranged on the grain hopper, and the weighing mechanism is electrically connected to the grain discharging driving unit to control the working state of the grain discharging driving unit.

Optionally, the useless millet mouth that is used for the waste grain of wasting discharge is seted up to the lower extreme of casing, useless millet mouth department is provided with useless millet gate mechanism, useless millet gate mechanism is including useless millet gate and being used for the drive useless millet drive unit that useless millet gate removed, useless millet gate is in horizontal migration under useless millet drive unit's the drive, and makes useless millet mouth opens or closes.

Optionally, the waste valley gate mechanism further comprises a rail and a slider slidably connected to the rail; the track with the slip direction of useless millet gate is parallel, the slider with useless millet gate fixed connection.

According to the above technical scheme, the utility model discloses following beneficial effect has at least:

the technical scheme of the utility model in, during the rice in the millet casket was carried the rice huller millet module in through promoting the module to rice huller millet processing at the rice huller millet module. The grain box is detachably accommodated in the grain bin, so that the grain box is positioned at the lower part in the shell, and when the grain box is replaced, the grain box does not need to be lifted to the upper part of the shell, and the replacement of the grain box in the shell is facilitated. When the grain box is arranged at the lower part of the shell, the gravity center height of the whole fresh rice machine is effectively reduced, so that the fresh rice machine is more stably arranged.

Drawings

FIG. 1 is a schematic perspective view of an embodiment of the rice polisher of the present invention;

fig. 2 is a schematic perspective view of a grain storage module of an embodiment of the fresh rice machine of the present invention;

FIG. 3 is a schematic perspective view of a guiding module of the embodiment of the rice polisher of the present invention;

FIG. 4 is a schematic structural view of a rice outlet gate mechanism of an embodiment of the rice-processing machine of the present invention;

fig. 5 is a schematic perspective view of a lifting module of an embodiment of the fresh rice machine of the present invention;

FIG. 6 is a schematic view of a lifting module of an embodiment of the rice polisher of the present invention;

FIG. 7 is a schematic view of the three-dimensional structure of the housing of the embodiment of the rice-processing machine of the present invention;

fig. 8 is a schematic view of the three-dimensional structure of the waste rice gate mechanism of the embodiment of the fresh rice machine of the present invention.

The reference numerals are explained below:

1. a housing; 2. a grain storage module; 21. a granary; 211. a containing groove; 22. a grain box; 3. a rice hulling module; 4. a lifting module; 41. a housing; 411. a grain inlet; 412. a grain outlet; 413. waste grain mouths; 42. a conveyor belt; 43. a rotating shaft; 431. a drive shaft; 432. a driven shaft; 44. a hopper; 45. a waste grain gate mechanism; 451. a waste grain gate; 452. a waste grain driving unit; 453. a track; 454. a slider; 46. a support frame; 5. a guide module; 51. a grain hopper; 52. a slideway; 521. grain discharging openings; 53. a grain outlet gate mechanism; 531. a grain outlet gate; 532. a grain discharging driving unit; 533. a screw rod; 534. a limiting member; 54. a weighing mechanism.

Detailed Description

Exemplary embodiments that embody features and advantages of the present invention will be described in detail in the following description. It is to be understood that the invention is capable of other and different embodiments and its several details are capable of modification without departing from the scope of the invention, and that the description and drawings are to be regarded as illustrative in nature and not as restrictive.

For further explanation of the principles and construction of the present invention, reference will now be made in detail to the preferred embodiments of the present invention, which are illustrated in the accompanying drawings.

Referring to fig. 1, the embodiment provides a fresh rice machine, which includes a housing 1, a rice storage module 2, a rice huller module 3, a lifting module 4 and a guiding module 5. Store up millet module 2, rice huller millet module 3, promote module 4 and direction module 5 and all locate in shell 1. The grain storage module 2 is used for storing rice and is arranged at the lower part in the shell 1. The rice hulling module 3 is used for carrying out rice hulling processing on rice and is arranged at the upper part in the shell 1. The lifting module 4 is erected in the shell 1 and used for lifting the paddy in the paddy storage module 2 into the paddy hulling module 3. In this embodiment, the grain storage module 2 is preferably connected to the lifting module 4 through the guiding module 5, and the guiding module 5 guides the grains in the grain storage module 2 into the lifting module 4. The lifting module 4 comprises a vertical shell 41 and a lifting piece arranged in the shell 41 in a lifting way; a grain inlet 411 is arranged at the lower part of the shell 41, and a grain outlet 412 is arranged at the upper part;

wherein, rice hulling module 3 makes the rice hulling after the rice hulling processing, can refer to correlation technique about rice hulling module 3's concrete structure, and this paper is no longer described in detail.

The husked brown rice is processed into finished rice by subsequent processes of rice milling, screening and the like in a fresh rice machine, and the finished rice is provided for users.

Referring to fig. 1 and 2, the grain storage module 2 includes a grain bin 21 and a grain box 22, wherein the grain box 22 stores rice therein, and the grain box 22 is detachably installed in the grain bin 21. Specifically, the barn 21 is provided with a plurality of receiving grooves 211, and one end of each receiving groove 211 penetrates through one side wall of the barn 21, so that the grain box 22 can be inserted and replaced in the barn 21. The lower end of the grain bin 21 is provided with an opening to facilitate downward discharge of the rice in the grain bin 22. A control structure is provided in the grain box 22 to control the opening of the grain box 22, so as to selectively discharge the rice in the grain box 22.

The grain bin 21 is arranged at the lower part in the shell 1, and the grain box 22 is arranged in the grain bin 21, so that the grain box 22 is ensured to be positioned at the lower part in the shell 1, and when the grain box 22 in the grain bin 21 is replaced, the grain box 22 does not need to be lifted to a higher position relative to the shell 1, so that the grain box 22 can be replaced manually.

Referring to fig. 1 and 3, the guide module 5 includes a hopper 51 and a chute 52. The hopper 51 is opened at both upper and lower ends thereof to form a passage through which the rice moves, the hopper 51 is connected to the opening at the lower end of the grain bin 21, and the hopper 51 is used for receiving the rice in the grain box 22 and discharging the rice downward. The passage of the hopper 51 has a structure with a wide top and a narrow bottom so as to gather the rice at the bottom of the hopper 51.

The slideway 52 is connected below the grain hopper 51 and is butted with a grain inlet 411 of the lifting module 4; the chute 52 is provided to be inclined downward in a direction from the hopper 51 toward the grain inlet 411 so that the rice is slid into the grain inlet 411.

Referring to fig. 1 and 4, a grain outlet gate mechanism 53 is disposed at an opening at a lower end of the grain bucket 51, and the grain outlet gate mechanism 53 is used for opening and closing the opening at the lower end of the grain bucket 51 to control the grains in the grain bucket 51 to enter the chute 52. The grain discharging gate mechanism 53 includes a grain discharging gate 531 slidably mounted at an opening of the grain bucket 51, and a grain discharging driving unit 532 for driving the grain discharging gate 531 to move, and the grain discharging gate 531 is driven by the grain discharging driving unit 532 to move horizontally, so that the opening at the lower end of the grain bucket 51 is opened or closed.

Furthermore, the grain discharging gate mechanism 53 further includes a screw rod 533 driven by the grain discharging driving unit 532 to rotate, and a limiting member 534 fixed at the opening at the lower end of the grain bucket 51, the limiting member 534 is horizontally disposed, the grain discharging gate 531 is limited on the limiting member 534 and can horizontally move relative to the limiting member 534, the screw rod 533 is screwed on the grain discharging gate 531 to drive the grain discharging gate 531 to horizontally slide along the limiting member 534, the two limiting members 534 are oppositely disposed at the opening at the lower end of the grain bucket 51, the two limiting members 534 are both long-strip-shaped structures in the shape of "L", the grain discharging gate 531 is limited between the two limiting members 534, so that the grain discharging gate 531 can only move along the length direction of the limiting member 534 in the horizontal direction, the grain discharging gate 531 horizontally moves under the action of the screw rod 533 to open and close the opening at the lower end of the grain bucket 51, in this embodiment, the.

Further, a weighing mechanism 54 is disposed on the grain hopper 51, and the weighing mechanism 54 is electrically connected to the grain discharging driving unit 532 to control the operating state of the grain discharging driving unit 532. When the outlet gate mechanism 53 at the lower end of the hopper 51 closes the opening at the lower end of the hopper 51, the hopper 51 receives the rice in the casing 22, after the weighing in the weighing mechanism 54 is completed, the outlet driving unit 532 drives the outlet gate 531 to open, and the rice flows into the slide way 52 from the opening at the lower end of the hopper 51 under the action of gravity and enters the lifting module 4 at the rice outlet 521 of the slide way 52.

Referring to fig. 5 to 7, the lifting member can receive the rice at the rice inlet 411 and lift the rice to the rice outlet 412. The lifting module 4 further comprises a conveyor belt 42 disposed in the housing 41, and a rotating shaft 43 for circulating the conveyor belt 42 in a vertical plane. The lifting member includes a plurality of hoppers 44 distributed on the outer circumference of the conveyor belt 42 and lifted up and down in the housing 41 as the conveyor belt 42 moves.

The rotating shaft 43 of the present embodiment includes a driving shaft 431 and a driven shaft 432, and the driving shaft 431 and the driven shaft 432 are provided at an interval in the vertical direction. The driving shaft 431 is connected to a driving mechanism, such as a motor, which can drive the driving shaft 431 to rotate. The driving mechanism drives the driving shaft 431 to rotate, so that the conveying belt 42 rotates around the driving shaft 431 and the driven shaft 432, and the hopper 44 moves together with the conveying belt 42.

The grain inlet 411 is communicated with an opening at the lower end of the grain bin 21 and is used for receiving the rice in the grain box 22; the rice hulling module 3 is connected with the rice outlet 412 of the lifting module 4 to receive rice discharged from the rice outlet 412 and perform rice hulling processing. The rice outlet 412 is located above the rice hulling module 3 and is used for introducing the rice in the lifting module 4 into the rice hulling module 3. The rice in the grain box 22 enters the hopper 44 in the housing 41 from the inlet 411 and moves with the hopper 44 to the outlet 412.

Referring to fig. 6, the hopper 44 has a hollow structure with an opening at one end, and a plurality of hoppers 44 are uniformly distributed on the outer circumference of the conveyor belt 42 along the moving direction of the conveyor belt 42. In this embodiment, the grain inlet 411 and the grain outlet 412 are respectively disposed on two sides of the alignment conveyor belt 42 that move relatively; the hopper 44 has an opening of the hopper 44 facing upward when it is close to the inlet 411 and an opening of the hopper 44 facing downward when it is moved to a side close to the outlet 412, so that the hopper 44 receives rice at the inlet 411 and pours the rice at the outlet 412.

Referring to fig. 7 and 8, the lower end of the housing 41 is provided with a waste grain opening 413 for discharging waste grains, a waste grain gate mechanism 45 is arranged at the waste grain opening 413, and the waste grain gate mechanism 45 opens and closes the waste grain opening 413 for controlling the waste grains in the housing 41 to be discharged.

Further, the bottom end of the housing 41 is provided with a support frame 46, and the support frame 46 is used for supporting the housing 41, so that a gap is formed between the bottom of the housing 41 and the casing 1, so that the rice in the waste rice outlet 413 can be discharged from the waste rice outlet 413 at the bottom end of the housing 41.

The waste valley gate mechanism 45 includes a waste valley gate 451 and a waste valley driving unit 452 for driving the waste valley gate 451 to move, and the waste valley gate 451 is horizontally moved by the waste valley driving unit 452 to open or close the waste valley opening 413.

The waste grain gate mechanism 45 further includes a rail 453 and a slider 454 slidably coupled to the rail 453; the rail 453 is parallel to the sliding direction of the waste grain gate 451, and the slider 454 is fixedly connected to the waste grain gate 451. The slide block 454 slides on the track 453, so that the waste grain gate 451 slides along with the slide block 454, and the sliding of the waste grain gate 451 at the waste grain opening 413 is realized to open and close the waste grain opening 413. The rice overflows or spills from the hopper 44, is gathered at the lower end of the housing 41 by gravity, the waste rice gate 451 is opened to discharge the rice inside the housing 41, and then the discharged rice is collected for reuse. In this embodiment, the rail 453 is fixed to the housing 1 and horizontally disposed so that the waste grain gate 451 moves horizontally. In this embodiment, the waste valley driving unit 452 is a motor.

In summary, in the fresh rice machine of the present embodiment, when rice is processed, a predetermined amount of rice is discharged from the rice bin 22 to the hopper 51, and the rice discharged from the rice bin 22 is weighed by the weighing mechanism 54 of the hopper 51. After weighing is completed, the paddy in the hopper 51 enters the chute 52 by opening the paddy discharge gate mechanism 53, and is discharged from the paddy discharge opening 521 to the paddy inlet 411 of the lifting module 4, and enters the hopper 44 at the paddy inlet 411. The rice in the hopper 44 is conveyed to the outlet 412 above the inlet 411 by the conveying action of the conveyor belt 42, and introduced into the rice hulling module 3 through the outlet 412. And processing the rice into rice in the rice hulling module 3.

Wherein, the grain box 22 is located at the lower part of the shell 1, after the rice in the grain box 22 is completely discharged, when the grain changing box 22 is arranged in the grain bin 21, the grain box 22 does not need to be lifted to a higher position, which is convenient for the replacement of the grain box 22. Because the unhulled rice is stored in the unhulled rice casket 22, the weight of unhulled rice casket 22 is heavier, and when the unhulled rice casket 22 was arranged in the lower part of shell 1, the effectual focus height that has reduced whole fresh rice machine for place more steady of fresh rice machine.

While the present invention has been described with reference to several exemplary embodiments, it is understood that the terminology used is intended to be in the nature of words of description and illustration, rather than of limitation. As the present invention may be embodied in several forms without departing from the spirit or essential characteristics thereof, it should also be understood that the above-described embodiments are not limited by any of the details of the foregoing description, but rather should be construed broadly within its spirit and scope as defined in the appended claims, and therefore all changes and modifications that fall within the meets and bounds of the claims, or equivalences of such meets and bounds are therefore intended to be embraced by the appended claims.

Claims (10)

1. A fresh rice machine, comprising:

a housing;

the grain storage module is arranged at the lower part in the shell and comprises a grain bin and a grain box; the grain box is used for storing rice and is detachably arranged in the grain bin; the lower end of the granary is provided with an opening for discharging the rice in the rice box;

the lifting module comprises a vertical shell and a lifting piece arranged in the shell in a lifting way; the lower part of the shell is provided with a grain inlet, and the upper part of the shell is provided with a grain outlet; the grain inlet is communicated with the lower end opening of the granary and is used for receiving the rice in the grain box; the lifting piece can receive rice at the rice inlet and lift the rice to the rice outlet;

the rice huller module is arranged at the upper part in the shell; the rice hulling module is connected with the rice outlet of the lifting module so as to receive rice discharged from the rice outlet and carry out rice hulling processing.

2. The rice-processing machine as claimed in claim 1, wherein said lifting module further comprises a conveyor belt and a rotating shaft for circulating said conveyor belt in a vertical plane; the lifting piece comprises a plurality of hoppers which are distributed on the periphery of the conveying belt and lift in the shell along with the movement of the conveying belt.

3. The rice mill as claimed in claim 2, wherein the hopper is a hollow structure with an opening at one end, and a plurality of the hoppers are uniformly distributed on the periphery of the conveyor belt along the moving direction of the conveyor belt.

4. The fresh rice machine of claim 3 wherein said grain inlet and said grain outlet are positioned on two opposite moving sides of said conveyor belt, respectively; when the hopper is close to one side of the grain inlet, the opening of the hopper is upward, and when the hopper is moved to be close to one side of the grain outlet, the opening of the hopper is downward.

5. The fresh rice machine of claim 1, further comprising a guide module, the guide module comprising:

the upper end and the lower end of the grain hopper are both opened to form a channel for moving the rice, the grain hopper is connected to the opening at the lower end of the granary, and the channel of the grain hopper is of a structure with a wide upper part and a narrow lower part so as to gather the rice at the bottom of the grain hopper;

the slideway is connected below the grain hopper and is butted with the grain inlet of the lifting module; the slideway is arranged in a downward inclined manner in the direction from the grain hopper to the grain inlet so as to enable the rice to slide into the grain inlet.

6. The fresh rice machine as claimed in claim 5, wherein a grain gate mechanism is provided at an opening of a lower end of the grain hopper, the grain gate mechanism includes a grain gate and a grain driving unit for driving the grain gate to move, the grain gate is horizontally moved by the grain driving unit to open or close the opening of the lower end of the grain hopper.

7. The rice mill as claimed in claim 6, wherein the rice discharging gate mechanism further comprises a screw rod driven by the rice discharging driving unit to rotate, and a stopper fixed at the lower opening of the rice hopper; the limiting piece is horizontally arranged, and the grain outlet gate is limited on the limiting piece and can horizontally move relative to the limiting piece; the screw rod is in threaded connection with the grain outlet gate so as to drive the grain outlet gate to horizontally slide along the limiting piece.

8. The rice huller as claimed in claim 6, wherein the grain hopper is provided with a weighing mechanism electrically connected to the grain discharging driving unit to control the operating state of the grain discharging driving unit.

9. The fresh rice machine as claimed in claim 1, wherein a waste grain opening for discharging waste grain is opened at a lower end of the housing, a waste grain gate mechanism is provided at the waste grain opening, the waste grain gate mechanism includes a waste grain gate and a waste grain driving unit for driving the waste grain gate to move, the waste grain gate is driven by the waste grain driving unit to move horizontally, so that the waste grain opening is opened or closed.

10. The rice-processing machine as claimed in claim 9, wherein said waste-grain gate mechanism further comprises a track, and a slide block slidably connected to said track; the track with the slip direction of useless millet gate is parallel, the slider with useless millet gate fixed connection.

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