CN211070200U - Fresh rice machine - Google Patents

Abstract

The utility model relates to a fresh rice machine, include the shell, store up rice module, store up millet module, hoisting module, become a rice device and collect the hopper. The rice storage module is internally stored with hulled finished rice, the rice storage module is internally stored with rice to be hulled, and the lifting module is communicated with the rice storage module and is used for receiving the rice discharged from the rice storage module and conveying the rice upwards; the rice forming device receives the rice discharged from the lifting module and processes the rice into fresh rice; the collection hopper is used for receiving fresh rice discharged from the rice forming device or finished rice discharged from the rice storage module, and the lower end of the collection hopper is provided with a rice outlet for discharging rice outwards. The rice forming device is used for processing the paddy on site and providing fresh ground rice for users; store up the finished product rice that the storage was accomplished in the rice module to direct discharge gives the user, does not need the long-time waiting of user, through the setting of storing up rice module and storing up millet module, is used for satisfying different users' demand.

Description

Fresh rice machine

Technical Field

The utility model relates to a bright rice machine technical 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 rice into rice by hulling and grinding rice on site so as to obtain fresh rice which is ground on site, and the method greatly preserves the nutrient components of the rice. However, the processing of the rice needs a certain time, the purchase of the rice needs to wait, and some users do not want to wait too long to purchase the rice.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a bright rice machine provides the rice that present husk rice and processed completion, satisfies different users' demand.

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

according to an aspect of the utility model, the utility model provides a fresh rice machine, include the shell, store up rice module, store up millet module, lifting module, become a meter device and collect the hopper. The rice storage module is internally stored with hulled finished rice and is arranged at the top in the shell; the rice storage module stores rice to be hulled and is arranged at the lower part in the shell; the lifting module is vertically arranged in the shell, is communicated with the grain storage module and is used for receiving the rice discharged from the grain storage module and conveying the rice upwards; the rice forming device is positioned above the rice storage module, receives the rice discharged from the lifting module and processes the rice into fresh rice; the collecting hopper is positioned below the rice storage module and the rice storage device and used for receiving the fresh rice discharged from the rice storage device or the finished rice discharged from the rice storage module, and a rice outlet is formed in the lower end of the collecting hopper so as to discharge the rice outwards.

Optionally, the rice storage module comprises a rice bin and a rice box detachably mounted in the rice bin, the rice box is used for storing finished rice, the rice bin is provided with an opening for the rice box to enter and exit, and a rice bin outlet is arranged at the lower end of the rice bin and used for discharging the finished rice in the rice box; the grain storage module comprises a grain bin and a grain box detachably mounted in the grain bin, the grain box is used for storing rice, the grain bin is provided with an opening for the grain box to go in and out, and the lower end of the grain bin is provided with a grain bin outlet for discharging the rice in the grain box; the opening of the granary and the opening of the rice bin face different sides of the shell respectively.

Optionally, the rice storage module further comprises a rice dropping slide way, the rice dropping slide way is obliquely arranged, the upper end of the rice dropping slide way is connected with the rice bin outlet, and the lower end of the rice dropping slide way is arranged corresponding to the collection hopper, so that finished rice slides into the collection hopper; the rice falling slideway is of a structure with a gradually reduced size from top to bottom in the inclination direction.

Optionally, the lifting module comprises a vertical housing and a lifting member arranged in the housing in a liftable manner; 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 grain bin outlet 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;

optionally, the fresh rice machine further comprises a guiding module, and the guiding module comprises a grain hopper and a grain falling slideway. The upper end and the lower end of the grain hopper are both opened to form a grain falling channel for moving the grains, the grain hopper is connected below the outlet of the grain bin, and the grain falling channel of the grain hopper is of a structure with a wide upper part and a narrow lower part so as to gather the grains at the bottom of the grain hopper; the falling grain slide way is connected below the grain hopper and is butted with a grain inlet of the lifting module; the grain falling slideway is arranged in a downward inclined mode in the direction from the grain hopper to the grain inlet, so that the rice can slide into the grain inlet.

Optionally, the rice milling device comprises a rice hulling module, a rice milling module and a screening module. The rice hulling module is connected with the lifting module and used for receiving the rice discharged from the lifting module and hulling the rice to process the rice into brown rice; the rice milling module is positioned below the rice hulling module, is connected with the rice hulling module and is used for receiving the brown rice discharged by the rice hulling module and processing the brown rice; the screening module is positioned below the rice milling module, connected with the rice milling module and used for receiving the rice processed by the rice milling module and screening and separating the whole rice and broken rice processed by the rice milling module; the screening module is located above the collecting hopper and discharges the screened whole rice into the collecting hopper.

Optionally, the rice hulling module comprises a rice hulling collection box, a rice hulling fan, a rice huller and a rice hulling opening and closing assembly; a rice hulling collection box is internally provided with a containing cavity for collecting the rice discharged by the lifting module, the upper part of the rice hulling collection box is provided with a rice hulling inlet for the rice to enter the containing cavity, and the lower part of the rice hulling collection box is provided with a rice falling port for the rice to be separated from the containing cavity; the rice hulling fan is arranged on one side of the rice hulling collection box; the feeding end of the rice hulling fan is communicated with the rice falling port and forms a feeding channel; the rice huller is used for hulling rice; the feed end of the air blower is communicated with the discharge end of the rice huller; the rice hulling opening and closing assembly is arranged between the rice hulling collection box and the rice hulling fan and selectively opens and closes the feeding channel; rice huller is opened and close the subassembly and is included rice hulling drive unit, receives rice hulling drive unit driven grain mouth gate and rice hulling linear guide, rice hulling linear guide's length direction with the moving direction of grain mouth gate is unanimous, and this grain mouth gate is in under rice hulling drive unit's the drive power effect, follow rice hulling linear guide horizontal migration, and make feedstock channel is in the open mode or the closed condition.

Optionally, the rice milling module comprises a rice milling hopper, a rice mill and a rice milling gate assembly; the rice milling hopper is provided with a material storage cavity, and the material storage cavity is provided with a rice milling feed inlet and a rice milling discharge outlet; the rice milling device is arranged below the rice milling hopper, and the feed end of the rice milling device is communicated with the rice milling discharge hole; the rice milling gate assembly comprises a rice milling driving unit, a gate plate driven by the rice milling driving unit and a rice milling linear guide rail, wherein the length direction of the rice milling linear guide rail is consistent with the moving direction of the gate plate; the gate plate is arranged between the rice milling hopper and the rice milling device, and the gate plate horizontally moves along the rice milling linear guide rail under the action of the driving force of the rice milling driving unit, so that the rice milling discharge port is in a closed state or an open state.

Optionally, the fresh rice machine further comprises a rice outlet gate assembly, which is butted with the rice outlet and selectively opens and closes the rice outlet; the rice outlet gate assembly comprises a rice outlet driving unit and a rice outlet gate driven by the rice outlet driving unit, and the rice outlet gate horizontally moves under the action of the driving force of the rice outlet driving unit to selectively enable the collecting hopper to be in a closed state or an open state.

Optionally, the outer structure and size of the grain and rice boxes are the same.

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

in the technical scheme of the utility model, the rice forming device is used for processing the rice on site and providing fresh rice which is ground on site for users; store up the finished product rice that the storage was accomplished in the rice module to direct discharge gives the user, does not need the long-time waiting of user, through the setting of storing up rice module and storing up millet module, is used for satisfying different users' demand. The rice storage module is internally stored with hulled finished rice, and the rice storage module is internally stored with rice to be hulled so as to arrange the finished rice and the rice at different positions and avoid confusion of the rice and the finished rice.

The grain storage module is positioned at the lower part in the shell, and when grains are added into the grain storage module, the grains do not need to be lifted to the upper part of the shell, so that the addition of the grains is more convenient and labor-saving. When the grain storage module 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 placed.

Drawings

FIG. 1 is a schematic view of the three-dimensional structure of the embodiment of the rice polisher of the present invention;

fig. 2 is a schematic view of a connection structure of the rice storage module, the rice huller module, the rice milling module and the collection hopper in the embodiment of the fresh rice machine of the present invention;

FIG. 3 is a schematic view of the three-dimensional structure of the collection hopper in the embodiment of the fresh rice machine of the present invention;

FIG. 4 is a schematic perspective view of a rice storage module in an embodiment of the rice storage machine of the present invention;

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

FIG. 6 is a schematic perspective view of a lifting module in an embodiment of the rice-processing machine of the present invention;

FIG. 7 is a schematic view of a lifting module in an embodiment of the rice polisher of the present invention;

FIG. 8 is a schematic perspective view of the housing of the embodiment of the rice-processing machine of the present invention;

fig. 9 is a schematic perspective view of the guiding module in the embodiment of the fresh rice machine of the present invention;

FIG. 10 is a schematic perspective view of a rice outlet gate mechanism in an embodiment of the rice cooker of the present invention;

FIG. 11 is a schematic perspective view of a rice forming device in an embodiment of the fresh rice machine of the present invention;

fig. 12 is a schematic structural view of a rice huller module in an embodiment of the fresh rice machine of the present invention;

fig. 13 is a schematic view of a connection structure between a rice hulling collection box and a rice hulling opening and closing assembly in a rice hulling module according to an embodiment of the fresh rice huller of the present invention;

fig. 14 is a schematic view of a connection structure of a rice hulling collection box, a rice hulling fan and a rice hulling opening and closing assembly in the rice hulling module according to the embodiment of the fresh rice huller of the present invention;

fig. 15 is a schematic view of a connection structure of the rice hulling opening and closing assembly according to the embodiment of the fresh rice huller of the present invention;

fig. 16 is a schematic perspective view of the rice milling module in the embodiment of the fresh rice mill of the present invention;

fig. 17 is another schematic perspective view of the rice milling module in the embodiment of the fresh rice mill of the present invention;

FIG. 18 is a schematic perspective view of a rice milling gate assembly in an embodiment of the rice milling machine of the present invention;

FIG. 19 is a schematic perspective view of a rice outlet gate assembly in an embodiment of the rice cooker of the present invention;

fig. 20 is a schematic view of the connection between the rice outlet gate assembly and the collection hopper in the embodiment of the rice-processing machine of the present invention.

The reference numerals are explained below:

1. a housing;

2. a grain storage module; 21. a granary; 22. a grain box;

3. a rice storage module; 31. a rice bin; 311. a rice bin outlet; 32. a rice box; 33. a rice falling slideway;

4. a lifting module; 41. a housing; 411. a grain inlet; 412. a grain outlet; 42. a conveyor belt; 43. a rotating shaft; 431. a drive shaft; 432. a driven shaft; 44. lifting the hopper;

5. a guide module; 51. a grain hopper; 52. a falling valley chute; 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 first weigher;

6. a collecting hopper; 61. a rice outlet; 62. a second weigher; 63. a rice outlet gate assembly; 631. a rice output driving unit; 632. a rice outlet gate; 6321. a first via hole; 6322. a second via hole; 633. a rice discharging linear guide rail; 634. a whole-rice discharge pipe; 635. a residual rice discharging pipe;

7. a rice hulling module; 71. a rice hulling collection box; 711. an accommodating chamber; 712. hulling rice at an inlet; 713. a grain falling port; 72. a rice hulling fan; 73. a rice hulling opening and closing component; 731. a rice hulling driving unit; 732. a valley gate; 733. a hulling connector; 734. rice hulling linear guide rails; 74. a rice huller;

8. a rice milling module; 81. a rice milling hopper; 811. a storage cavity; 812. a rice milling feed port; 813. a rice milling discharge port; 82. a rice milling device; 83. a rice milling gate assembly; 831. a rice milling driving unit; 832. a shutter plate; 833. rice milling connecting pieces; 834. rice milling linear guide rail.

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 comprises a housing 1, and a rice storage module 3, a rice storage module 2, a lifting module 4, a guiding module 5, a rice forming device and a collecting hopper 6 which are arranged in the housing 1.

The rice storage module 3 is arranged at the top in the shell 1 and stores hulled finished rice, the finished rice in the rice storage module 3 can be directly discharged downwards into the collecting hopper 6, and a user directly obtains the finished rice without rice hulling and grinding, so that the time for obtaining rice by the user is saved.

The grain storage module 2 is arranged at the lower part in the shell 1 and stores rice to be hulled. The unhusked rice in the unhusked rice storage module 2 is guided to the lifting module 4 through the guide module 5, and lifted to the rice forming device above the unhusked rice storage module 2 under the action of the lifting module 4, and then processed into rice in the rice forming device. The rice-forming device processes the unhulled rice into rice and discharges the rice into the collection hopper 6 so as to obtain fresh freshly ground rice.

The lifting module 4 is vertically arranged in the shell 1, and the lifting module 4 is communicated with the grain storage module 2 through a guide module 5 and is used for receiving rice discharged from the grain storage module 2 and conveying the rice upwards to a rice forming device; the rice forming device is positioned above the rice storage module 3, receives the rice discharged from the lifting module 4, processes the rice into fresh rice and discharges the fresh rice into the collection hopper 6.

Referring to fig. 2 and 3, a collecting hopper 6 is positioned below the rice storage module 3 and the rice growing device for receiving fresh rice discharged from the rice growing device or finished rice discharged from the rice storage module 3, and a rice outlet 61 is provided at a lower end of the collecting hopper 6 to discharge rice outward. The user receives the rice in the collection hopper 6 at the rice outlet 61.

The rice forming device processes the rice on site and provides fresh rice which is ground on site for users. Finished rice after processing is stored in the rice storage module 3 to be directly discharged to a user without long-time waiting of the user. Through the setting of storing up rice module 3 and storing up millet module 2, be used for satisfying different users' demand.

Referring to fig. 1 and 4, the rice storage module 3 includes a rice bin 31 and a rice box 32 detachably installed in the rice bin 31, the rice box 32 is used for storing finished rice, the rice bin 31 has an opening for the rice box 32 to go in and out, and a rice bin outlet 311 is provided at a lower end of the rice bin 31 for discharging the finished rice in the rice box 32. A control structure is provided in the rice box 32 to control the opening of the rice box 32, thereby selectively discharging the rice in the rice box 32.

The rice storage module 3 further comprises a rice falling slideway 33, the rice falling slideway 33 is obliquely arranged, the upper end of the rice falling slideway 33 is connected with a rice bin outlet 311, and the lower end of the rice falling slideway 33 is arranged corresponding to the collection hopper 6, so that finished rice slides into the collection hopper 6; the rice falling slideway 33 is of a structure with a gradually reduced size from top to bottom in the inclination direction, so that the finished rice in the rice falling slideway 33 is collected at the bottom of the rice falling slideway 33 and then discharged into the collecting hopper 6.

Referring to fig. 1 and 5, the grain storage module 2 includes a grain bin 21 and a grain box 22 detachably installed in the grain bin 21, the grain box 22 is used for storing rice, the grain bin 21 has an opening for the grain box 22 to go in and out, and a grain bin outlet (not shown) is provided at a lower end of the grain bin 21 for discharging the rice in the grain box 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.

In this embodiment, the grain box 22 and the rice box 32 have the same external structure and size, so that the grain box 22 and the rice box 32 can be used commonly.

Further, the opening of the grain bin 21 and the opening of the rice bin 31 face different sides of the casing 1, respectively. To avoid confusion between the grain bin 21 and the rice bin 31 during loading. Meanwhile, the height of the rice bin 31 is higher than that of the grain bin 21, so that the grain bin 21 and the rice bin 31 can be distinguished.

Referring to fig. 6 to 8, the lifting module 4 includes a vertical housing 41 and a lifting member disposed in the housing 41 in a liftable manner; 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; the lifting member can receive the rice at the inlet 411 and lift the rice to the 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 lifting 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.

In the present embodiment, the rotating shaft 43 includes a driving shaft 431 and a driven shaft 432, and the driving shaft 431 and the driven shaft 432 are spaced apart 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 lifting hopper 44 moves together with the conveying belt 42.

The grain inlet 411 is communicated with the grain bin outlet and is used for receiving the rice in the grain box 22; the rice forming device is connected to the grain outlet 412 of the lifting module 4 to receive the rice discharged from the grain outlet 412 and perform rice processing. The grain outlet 412 is located above the rice-milling device for introducing the rice in the hoist module 4 into the rice-milling device. The rice in the grain box 22 enters the lifting hopper 44 in the housing 41 from the grain inlet 411 and moves to the grain outlet 412 along with the lifting hopper 44.

Referring to fig. 7, the lifting hopper 44 is a hollow structure with an opening at one end, and a plurality of lifting hoppers 44 are uniformly distributed on the periphery of the conveying belt 42 along the moving direction of the conveying 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 opening of the lifting hopper 44 is upward when the lifting hopper 44 is close to the side of the grain inlet 411, and the opening of the lifting hopper 44 is downward when the lifting hopper 44 is moved to the side close to the grain outlet 412, so that the lifting hopper 44 receives the rice at the grain inlet 411 and dumps the rice at the grain outlet 412.

Referring to fig. 1 and 4, the guide module 5 includes a grain hopper 51 and a grain 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 falling grain slide way 52 is connected below the grain hopper 51 and is butted with the grain inlet 411 of the lifting module 4; the falling 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. 9 and 10, 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 falling 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, the grain hopper 51 is provided with a first weigher 54, and the first weigher 54 is electrically connected to the grain outlet driving unit 532 to control the working state of the grain outlet 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 rice box 22, after the weighing in the first weighing device 54 is completed, the outlet driving unit 532 drives the outlet gate 531 to open, and the rice flows into the falling rice slideway 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 falling rice slideway 52.

Referring to fig. 11, the rice huller is used to hulle and grind the rice, and the rice is processed into rice and arranged on the upper part of the housing 1. The rice milling device comprises a rice hulling module 7, a rice milling module 8 and a screening module (not shown in the figure). The rice hulling module 7 is connected to the lifting module 4, and is configured to hull rice, process the rice into brown rice, and separate the brown rice from rice husks. The rice milling module 8 and the rice hulling module 7 are connected, and are used for receiving the brown rice discharged by the rice hulling module 7 and processing the brown rice, and the rice milling module 8 is used for processing the brown rice into whole rice and broken rice and discharging the whole rice and the broken rice into the screening module. The screening module is located the below of husk rice module 8, and meets with husk rice module 8 for receive the rice after husk rice module 8 processes, and the whole rice and the broken rice screening separation that form with husk rice module 8 processing. The screening module is located above the collection hopper 6 and discharges the screened whole rice into the collection hopper 6.

The specific structure of the screening module of the present embodiment may refer to the related art, and is not described in detail herein. In some embodiments, a screening module may be disposed between the rice hulling module 7 and the rice milling module 8 to screen the brown rice in the rice hulling module 7 during the rice hulling process, so as to remove broken rice mixed in the brown rice generated during the rice hulling process. Referring to fig. 11 to 13, the rice hulling module 7 mainly includes a rice hulling collection box 71, a rice hulling blower 72, a rice hulling opening and closing assembly 73, and a rice huller 74. Rice huller collecting box 71 is located rice huller fan 72, connects rice huller 74 through rice huller fan 72, and rice huller opens and close subassembly 73 and sets up between rice huller collecting box 71 and rice huller fan 72, selectively adjusts the connected state of rice huller collecting box 71 and rice huller fan 72, and the control of being convenient for gets into the rice quantity in rice huller fan 72, avoids the interact power between the rice too big to reduce the broken rice rate of rice huller 74.

The rice hulling collection box 71 serves as a main part of the rice hulling module 7 for externally receiving rice to be hulled. The rice huller collecting tank 71 is a hollow cavity with a certain wall thickness.

Furthermore, the rice hulling collection box 71 is provided with an accommodating cavity 711 with openings at the upper end and the lower end, the upper part is provided with a rice hulling inlet 712 communicated with the accommodating cavity 711, and the lower part is provided with a rice falling port 713 communicated with the accommodating cavity 711, so that the accommodating cavity 711 is communicated with the rice hulling inlet 712 and the rice falling port 713. The housing chamber 711 is mainly used for collecting the rice discharged from the hoist module 4. The rice huller inlet 712 is rectangular and is connected below the rice outlet 412 of the lifting module 4, so that rice enters the accommodating cavity 711. The corn falling opening 713 is in a conical shape and is connected above the rice milling module 8, so that the rice enters the rice milling module 8 after being separated from the accommodating cavity 711, and the efficiency of separating the rice from the accommodating cavity 711 is improved.

Referring to fig. 14, the rice hulling fan 72 is disposed at one side of the rice hulling collection box 71, and specifically, the rice hulling fan 72 is disposed at the lower side of the rice hulling collection box 71. The rice huller fan 72 is mainly used for providing wind power to blow rice husks, so that the separation efficiency of the brown rice and the husks is improved, and the collection of the husks is facilitated.

The top of rice huller fan 72 is the feed end, and the bottom is the discharge end. The feed end of the rice huller fan 72 faces the rice hulling port 713 of the rice huller collecting box 71, is communicated with the rice hulling port 713 and forms a feed channel, wherein the rice hulling port 713 is converged at the feed end of the rice huller fan 72.

The end of the rice huller fan 72 close to the collection box 1 is an opening, and the opening can be rectangular optionally. The opening of the rice huller fan 72 is communicated with the feeding channel. Optionally, the opening of the rice hulling fan 72 is formed by enclosing the rice hulling fan 72 and the rice hulling collection box 71.

Referring to fig. 11 to 15, the rice hulling opening and closing assembly 73 is disposed between the rice hulling collection box 71 and the rice hulling blower 72, and is mainly used for selectively opening or closing the feeding channel, so as to control the amount of rice entering the rice hulling blower 72 by selectively opening and closing the feeding channel.

The rice hulling opening and closing assembly 73 mainly comprises a rice hulling driving unit 731, a rice hulling port gate 732, a rice hulling connector 733 and a rice hulling linear guide 734, wherein the rice hulling port gate 732 is connected to the output end of the rice hulling driving unit 731, and moves horizontally along the rice hulling linear guide 734 under the action of the driving force of the rice hulling driving unit 731, and is inserted into the rice hulling inlet 712, so that the feeding channel is in an open state or a closed state.

The rice hulling driving unit 731 is the main driving source of the rice hulling opening and closing component 73, and the rice hulling driving unit 731 can be selected to be an air cylinder part or a motor.

When the rice hulling driving unit 731 is a motor, the output end of the rice hulling driving unit 731 is connected to the rice outlet gate 732, and is converted into linear movement by the rotational motion. The hulling driving unit 731 is mounted on a motor fixing base (not shown). Wherein, the output end of the rice hulling driving unit 731 is connected with the rice hulling port gate 732 through the rice hulling connector 733.

The rice hulling connector 733 is optionally cylindrical, is provided with a threaded hole, is screwed to the output end of the rice hulling driving unit 731 through the threaded hole, and is driven by the output end of the rice hulling driving unit 731 to move linearly. Specifically, the screw thread specification of the screw hole is consistent with that of the output end of the rice hulling driving unit 731. The rice huller connector 733 is connected to the rice dropping port gate 732 by a screw, and can drive the rice dropping port gate 732 to move.

The rice hulling linear guide 734 is horizontally disposed and moves in the same direction as the movement direction of the rice outlet gate 732.

Further, the rice huller 74 is used for hulling rice, and the feeding end thereof is communicated with the discharging end of the rice hulling fan 72. Rice huller 74 realizes the rice hulling through the friction of centrifugal action force to the rice, blows in to rice huller 74 through rice huller fan 72 when proper amount rice, the interact between many rice to interaction between the interaction is suitable to the rice hulling, avoids interaction between the rice too big, thereby reduces rice huller 74's broken rice rate.

In this embodiment, rice huller fan 72 sets up in one side of rice hulling collecting box 71, and rice huller fan 72's feed end communicates in holding chamber 711 to form feedstock channel, and rice huller opens and close subassembly 73 and set up between rice hulling collecting box 71 and rice huller fan 72, selectively opens and close feedstock channel, selectively opens and close through carrying out the feedstock channel, is convenient for control to get into the rice quantity in rice huller fan 72, avoids the interact power between the rice too big, thereby reduces rice huller 74's broken rice rate.

Wherein, the rice huller opening and closing assembly 73 includes rice hulling drive unit 731 and the rice hulling gate 732 that is driven by rice hulling drive unit 731, and this rice hulling gate 732 moves horizontally under the driving force effect of rice hulling drive unit 731, and makes feedstock channel be in the open mode or the closed mode to realize feedstock channel's automatic opening and closing, and then be convenient for switch feedstock channel's user state.

Referring to fig. 16 and 17, the rice milling module 8 mainly includes a rice milling hopper 81, a rice mill 82, and a rice milling shutter assembly 83.

The rice milling hopper 81 serves as a main part of the rice milling module 8 for receiving the brown rice to be milled to the outside. The rice milling hopper 81 is a hollow cavity with a certain wall thickness.

A material storage chamber 811 is provided in the rice milling hopper 81, and the material storage chamber 811 forms a passage for the brown rice and stores the brown rice.

The material storage cavity 811 is provided with a rice milling feed inlet 812 and a rice milling discharge outlet 813, the rice milling feed inlet 812 is optionally positioned at the top end of the material storage cavity 811 for brown rice to enter the material storage cavity 811, and the rice milling discharge outlet 813 is optionally positioned at the bottom end of the material storage cavity 811 for brown rice to be separated from the material storage cavity 811.

Rice milling discharge 813 is optionally tapered, and its profile can be used for effective positioning and to improve the efficiency of the brown rice leaving the stock chamber 811 under the guiding force.

The rice milling machine 82 is provided on one side of the rice milling hopper 81, and specifically, the rice milling machine 82 is provided below the rice milling hopper 81. The rice mill 82 provides a space for the brown rice to undergo a whitening process, and subjects the brown rice to a tumbling motion so that the brown rice is subjected to a grinding force, thereby removing a light brown surface layer of the brown rice.

The top end of the rice mill 82 is a feeding end, and the bottom end is a discharging end. The rice milling machine 82 supports a rice milling hopper 81 and is located below the rice milling hopper 81. The rice milling machine 82 is provided at the feed end thereof with an engagement groove (not shown) matching the bottom end of the rice milling hopper 81, and the engagement groove has an outer shape conforming to the outer shape of the bottom end of the rice milling hopper 81. Wherein, the feed end of the rice mill 82 is in positioning butt joint with the rice milling discharge hole 813, so that the loss rate of the brown rice between the rice mill 82 and the rice milling hopper 81 is reduced.

Rice milling hopper 81 is located rice mill 82, the husk rice discharge gate 813 of rice milling hopper 81 of feed end intercommunication rice milling hopper 82, husk rice gate assembly 83 sets up between rice milling hopper 81 and rice mill 82, selectively adjusts the state that opens and shuts of rice milling hopper 81 and rice mill 82, the brown rice quantity that the control of being convenient for got into in rice mill 82 to realize during the brown rice ration gets into rice mill 82, guarantee that the internal pressure of rice mill 82 is reasonable and stable, thereby improve the yield of white rice.

The feeding end of the rice milling device 82 faces the rice milling discharge hole 813 of the rice milling hopper 81 and is communicated with the rice milling discharge hole 813, so that the brown rice stored in the rice milling hopper 81 enters the rice milling device 82.

Specifically, the rice mill 82 is further provided with a speed adjusting module, and the running speed of the rice mill 82 is adjusted through the speed adjusting module to improve the whitening quality of the brown rice, which is not limited herein.

Referring to fig. 16 to 19, the rice milling lock gate assembly 83 mainly includes a rice milling driving unit 831, a lock gate plate 832, a rice milling connecting member 833 and a rice milling linear guide 834, the lock gate plate 832 is disposed between the rice milling hopper 81 and the rice milling machine 82, the lock gate plate 832 is connected to an output end of the rice milling driving unit 831, and horizontally moves along the rice milling linear guide 834 under the driving force of the rice milling driving unit 831, and penetrates between a rice milling discharge port 813 of the rice milling hopper 81 and a feed end of the rice milling machine 82, so that the rice milling discharge port 813 of the rice milling hopper 81 is in an open state or a closed state.

The rice milling driving unit 831 is a main driving source of the rice milling shutter assembly 83, and the rice milling driving unit 831 may be an optional cylinder part or a motor.

When the rice milling driving unit 831 is a motor, an output end of the rice milling driving unit 831 is connected to the shutter plate 832 and is converted into linear movement by a rotational motion. The rice milling driving unit 831 is mounted on a motor fixing base (not shown).

Wherein, the output end of the rice milling driving unit 831 is connected with the gate plate 832 through the rice milling connecting piece 833.

The rice milling connecting piece 833 is optionally cylindrical, is provided with a threaded hole, is in threaded connection with the output end of the rice milling driving unit 831 through the threaded hole, and is driven by the output end of the rice milling driving unit 831 to move linearly. Specifically, the screw hole is in conformity with the screw specification of the output end of the rice milling drive unit 831.

Rice milling connecting piece 833 passes through screwed connection gate board 832 to can drive gate board 832 and remove.

Rice milling linear guide 834 sets up in the downside of gate panel 832, and rice milling linear guide 834 and gate panel 832 threaded connection to improve the mobility smoothness of gate panel 832, improve the smoothness of the linear motion of gate panel 832. The longitudinal direction of the rice milling linear guide 834 is consistent with the moving direction of the gate plate 832.

In this embodiment, the rice milling hopper 81 is provided with a material storage cavity 811, the material storage cavity 811 has a rice milling feed inlet 812 and a rice milling discharge outlet 813, the feed end of the rice mill 82 communicates with the rice milling discharge outlet 813, and the rice milling gate assembly 83 includes a rice milling drive unit 831 and a gate plate 832 driven by the rice milling drive unit 831, the gate plate 832 moves horizontally under the driving force of the rice milling drive unit 831, and the rice milling discharge outlet 813 is in a closed state or an open state, and the rice milling discharge outlet 813 is selectively opened and closed, so that the amount of brown rice entering the rice mill 82 is controlled, thereby realizing that the brown rice quantitatively enters the rice mill 82, ensuring reasonable and stable internal pressure of the rice mill 82, and improving yield of white rice.

The shutter plate 832 moves horizontally under the driving force of the rice milling driving unit 831 to enable the rice milling discharge hole 813 to be in a closed state or an open state, so that the rice milling discharge hole 813 is opened and closed automatically, and the state of the rice milling discharge hole 813 is convenient to switch.

Referring to fig. 19 and 20, the fresh rice machine further includes a rice outlet gate assembly 63 which is coupled to the rice outlet 61 of the collection hopper 6 and selectively opens and closes the rice outlet 61 to control the discharge of the rice in the collection hopper. The rice discharging gate assembly 63 includes a rice driving unit 631, a rice discharging gate 632, a rice discharging linear guide rail 633, a whole rice discharging pipe 634 and a remaining rice discharging pipe 635. A rice discharging driving unit 631, and a rice discharging gate 632 driven by the rice discharging driving unit 631, the rice discharging gate 632 horizontally moving by the driving force of the rice discharging driving unit 631 to open or close the rice outlet 61.

The rice output driving unit 631 can be a linear module optionally, and can realize linear motion. The structure of the linear module can refer to the structure in the related art.

The rice outlet gate 632 may be a flat plate, and is connected to a sliding table of the rice outlet driving unit 631, and horizontally moves under the driving of the rice outlet driving unit 631. The rice outlet gate 632 is provided with a first via 6321 and a second via 6322, and the first via 6321 and the second via 6322 are disposed at an interval in the moving direction of the rice outlet gate 632. Specifically, the first via 6321 may be optionally located in the middle of the rice discharging gate 632.

The whole rice discharging pipe 634 and the residual rice discharging pipe 635 can be selected from bent pipes, the whole rice discharging pipe 634 is connected with the first via hole 6321 in a sealing mode, the residual rice discharging pipe 635 is connected with the second via hole 6322 in a sealing mode, and the whole rice discharging pipe 634 and the residual rice discharging pipe 635 are communicated with the rice outlet 61 alternatively along with the movement of the rice outlet gate 632, so that the discharging of the whole rice and the residual rice is controlled.

The sliding table part of the rice outlet linear guide rail 633 is fixedly connected with the rice outlet gate 632, so that the stability of the rice outlet gate 632 in the moving process is improved. The moving direction of the slider part of the rice discharging linear guide 633 is parallel to the extending direction of the output end of the rice discharging driving unit 631.

A collection hopper 6 is provided below the screening module for guiding and containing the whole rice output by the screening module. The collection hopper 6 is hollow, the rice outlet 61 of the collection hopper 6 is abutted to the rice outlet gate 632, and the rice outlet 61 of the collection hopper 6 is adjusted to be in an open state or a closed state by the rice outlet gate assembly 63.

When the first through hole 6321 and the rice discharge gate 632 are misaligned, the rice discharge gate 632 blocks the opening of the collection hopper 6, and the whole rice in the collection hopper 6 is accommodated. The whole rice discharging pipe 634 communicates with the rice outlet 61 of the collecting hopper 6 to discharge the whole rice when the first passing hole 6321 is opposite to the rice outlet gate 632.

Further, a second weigher 62 is provided on the collection hopper 6, and the second weigher 62 is used to measure the weight of the collection hopper 6 to determine the weight of the rice contained in the collection hopper 6.

The fresh rice machine of the present embodiment provides two ways of supplying rice:

firstly, when a user does not want to wait for too long time, finished rice in the rice box 32 is discharged into the collecting hopper 6 through the rice falling slide way 33, the finished rice is weighed in the collecting hopper 6 by the second weighing device and then discharged from the rice outlet 61, and the finished rice is directly packaged and taken away by the user without rice hulling and grinding, so that the time is saved.

When a user desires to obtain fresh freshly ground rice, a predetermined amount of rice is discharged from the rice magazine 22 into the hopper 51, and the rice discharged from the rice magazine 22 is weighed by the first weighing device 54 in the hopper 51. After weighing, the paddy is transported to the paddy hulling module 7 through the lifting module 4, and the paddy hulling module 7 hulles the paddy. The husked rice is discharged to a rice milling module 8, and is milled in the rice milling module to form whole rice and crushed rice. The whole rice and broken rice are discharged into a screening module, where they are screened into a collection hopper 6. The whole rice is discharged after the collection hopper 6 is weighed to the required amount for obtaining fresh freshly ground rice.

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;

a rice storage module in which hulled finished rice is stored, the rice storage module being disposed at the top inside the housing;

the grain storage module is used for storing rice to be hulled and is arranged at the lower part in the shell;

the lifting module is vertically arranged in the shell, is communicated with the grain storage module and is used for receiving the rice discharged from the grain storage module and conveying the rice upwards;

a rice forming device located above the rice storage module, the rice forming device receiving the rice discharged from the lifting module and processing the rice into fresh rice;

the collecting hopper is positioned below the rice storage module and the rice storage device and used for receiving fresh rice discharged from the rice storage device or finished rice discharged from the rice storage module, and a rice outlet is formed in the lower end of the collecting hopper so as to discharge rice outwards.

2. The fresh rice machine as claimed in claim 1, wherein the rice storage module comprises a rice bin and a rice box detachably mounted in the rice bin, the rice box is used for storing finished rice, the rice bin is provided with an opening for the rice box to enter and exit, and the lower end of the rice bin is provided with a rice bin outlet for discharging the finished rice in the rice box;

the grain storage module comprises a grain bin and a grain box detachably mounted in the grain bin, the grain box is used for storing rice, the grain bin is provided with an opening for the grain box to go in and out, and the lower end of the grain bin is provided with a grain bin outlet for discharging the rice in the grain box;

the opening of the granary and the opening of the rice bin face different sides of the shell respectively.

3. The fresh rice machine of claim 2, wherein the rice storage module further comprises a rice dropping slide, the rice dropping slide is obliquely arranged, the upper end of the rice dropping slide is connected with the rice bin outlet, and the lower end of the rice dropping slide is arranged corresponding to the collection hopper, so that finished rice slides into the collection hopper; the rice falling slideway is of a structure with a gradually reduced size from top to bottom in the inclination direction.

4. The rice-processing machine as claimed in claim 2, wherein said lifting module comprises an upright housing and a lifting member elevatably disposed within said housing; 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 grain bin outlet 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.

5. The fresh rice machine of claim 4 further comprising a guidance module, the guidance module comprising:

the upper end and the lower end of the grain hopper are both opened to form a grain falling channel for rice movement, the grain hopper is connected below the outlet of the grain bin, and the grain falling 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 grain falling slide way is connected below the grain hopper and is butted with the grain inlet of the lifting module; the grain falling slideway is arranged in a downward inclined mode in the direction from the grain hopper to the grain inlet, so that the rice can slide into the grain inlet.

6. The fresh rice machine of claim 1, wherein said rice-forming means comprises:

a rice hulling module connected to the lifting module for receiving the rice discharged from the lifting module and hulling the rice to process the rice into brown rice;

the rice milling module is positioned below the rice hulling module, is connected with the rice hulling module and is used for receiving the brown rice discharged by the rice hulling module and processing the brown rice;

the screening module is positioned below the rice milling module, connected with the rice milling module and used for receiving the rice processed by the rice milling module and screening and separating the whole rice and broken rice processed by the rice milling module; the screening module is located above the collecting hopper and discharges the screened whole rice into the collecting hopper.

7. The fresh rice huller as claimed in claim 6, wherein the rice hulling module comprises:

the rice hulling collection box is internally provided with a containing cavity for collecting the rice discharged by the lifting module, the upper part of the rice hulling collection box is provided with a rice hulling inlet for the rice to enter the containing cavity, and the lower part of the rice hulling collection box is provided with a rice falling port for the rice to be separated from the containing cavity;

the rice hulling fan is arranged on one side of the rice hulling collection box; the feeding end of the rice hulling fan is communicated with the rice falling port and forms a feeding channel;

the rice huller is used for hulling rice; the feed end of the air blower is communicated with the discharge end of the rice huller;

the rice hulling opening and closing assembly is arranged between the rice hulling collection box and the rice hulling fan and selectively opens and closes the feeding channel; rice huller is opened and close the subassembly and is included rice hulling drive unit, receives rice hulling drive unit driven grain mouth gate and rice hulling linear guide, rice hulling linear guide's length direction with the moving direction of grain mouth gate is unanimous, and this grain mouth gate is in under rice hulling drive unit's the drive power effect, follow rice hulling linear guide horizontal migration, and make feedstock channel is in the open mode or the closed condition.

8. The fresh rice machine of claim 6 wherein said rice milling module comprises:

the rice milling hopper is provided with a material storage cavity, and the material storage cavity is provided with a rice milling feeding hole and a rice milling discharging hole;

the rice milling device is arranged below the rice milling hopper, and the feed end of the rice milling device is communicated with the rice milling discharge hole;

the rice milling gate assembly comprises a rice milling driving unit, a gate plate driven by the rice milling driving unit and a rice milling linear guide rail, wherein the length direction of the rice milling linear guide rail is consistent with the moving direction of the gate plate; the gate plate is arranged between the rice milling hopper and the rice milling device, and the gate plate horizontally moves along the rice milling linear guide rail under the action of the driving force of the rice milling driving unit, so that the rice milling discharge port is in a closed state or an open state.

9. The fresh rice machine of claim 1, further comprising a rice outlet gate assembly which is docked to the rice outlet to selectively open and close the rice outlet; the rice outlet gate assembly comprises a rice outlet driving unit and a rice outlet gate driven by the rice outlet driving unit, and the rice outlet gate horizontally moves under the action of the driving force of the rice outlet driving unit to selectively enable the collecting hopper to be in a closed state or an open state.

10. The fresh rice machine as claimed in claim 2, wherein the outer configuration and size of said grain box and rice box are the same.

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