阅读说明：本技术 一种胚芽米加工方法 (Processing method of germ rice ) 是由 叶满 于 2021-10-30 设计创作，主要内容包括：本发明涉及胚芽米加工领域,更具体的说是一种胚芽米加工方法。一种胚芽米加工方法,包括以下步骤：S1：将未处理的米放入胚芽米加工装置内,通过差速碾压的方式使米壳脱落；S2：将米壳和米筛分,将米壳收集；S3：将分离后的米的外表面包裹一层糖,将米中的胚芽锁住；S1：将糖和米充分搅拌,使糖均匀地涂覆在米的表面。所述胚芽米加工装置包括双向锥筒和双向锥块,双向锥块设置在双向锥筒内,双向锥块和双向锥筒之间设置有间隙。所述双向锥块和双向锥筒同轴设置,双向锥块和双向锥筒均以二者的共同轴线为轴转动。所述双向锥块和双向锥筒差速转动。本发明可以将胚芽保留在米中。(The invention relates to the field of germ rice processing, in particular to a germ rice processing method. A method for processing germ rice comprises the following steps: s1: putting the untreated rice into a germ rice processing device, and enabling rice husks to fall off in a differential rolling mode; s2: sieving rice husks and rice, and collecting the rice husks; s3: wrapping the outer surface of the separated rice with a layer of sugar to lock the germs in the rice; s1: mixing sugar and rice, and uniformly coating the sugar on the surface of rice. The germ rice processing device comprises a bidirectional conical cylinder and a bidirectional conical block, wherein the bidirectional conical block is arranged in the bidirectional conical cylinder, and a gap is formed between the bidirectional conical block and the bidirectional conical cylinder. The bidirectional conical block and the bidirectional conical cylinder are coaxially arranged, and both the bidirectional conical block and the bidirectional conical cylinder rotate by taking the common axis of the bidirectional conical block and the bidirectional conical cylinder as an axis. The bidirectional conical block and the bidirectional conical barrel rotate in a differential manner. The invention can keep the germ in the rice.)

1. A method for processing germ rice is characterized by comprising the following steps:

s1: putting the untreated rice into a germ rice processing device, and enabling rice husks to fall off in a differential rolling mode;

s2: sieving rice husks and rice, and collecting the rice husks;

s3: wrapping the outer surface of the separated rice with a layer of sugar to lock the germs in the rice;

s4: mixing sugar and rice, and uniformly coating the sugar on the surface of rice.

2. The method for processing milled rice according to claim 1, wherein the step of: the germ rice processing device comprises a bidirectional conical cylinder (101) and a bidirectional conical block (107), wherein the bidirectional conical block (107) is arranged in the bidirectional conical cylinder (101), and a gap is formed between the bidirectional conical block (107) and the bidirectional conical cylinder (101).

3. The method for processing milled rice according to claim 2, wherein the step of: the bidirectional conical block (107) and the bidirectional conical cylinder (101) are coaxially arranged, and the bidirectional conical block (107) and the bidirectional conical cylinder (101) rotate by taking the common axis of the bidirectional conical block and the bidirectional conical cylinder as an axis.

4. The method for processing milled rice according to claim 3, wherein the step of: the bidirectional conical block (107) and the bidirectional conical cylinder (101) rotate at different speeds.

5. The method for processing milled rice according to claim 2, wherein the step of: the germ rice processing device further comprises a motor I (102), a folding frame (103), a motor II (104), a sleeve ring (106) and a friction wheel (108), the motor II (104) is fixedly connected to the folding frame (103), an output shaft of the motor II (104) is fixedly connected to the upper side of a bidirectional conical block (107), the folding frame (103) is fixedly connected with the motor I (102), the output shaft of the motor I (102) is fixedly connected with the friction wheel (108), the friction wheel (108) is in friction transmission with the outer side of the bidirectional conical cylinder (101), the lower portion of the folding frame (103) is provided with the sleeve ring (106), and the upper portion of the bidirectional conical cylinder (101) is rotatably connected to the sleeve ring (106).

6. The method for processing milled rice according to claim 5, wherein the step of: the germ rice processing device further comprises a funnel (105), and the funnel (105) is arranged on the upper portion of the bidirectional cone (101).

7. The method for processing milled rice according to claim 5, wherein the step of: the germ rice processing device further comprises a pressing ring (201), the pressing ring (201) is arranged one above the other, and the two pressing rings (201) are respectively pressed on the upper portion and the lower portion of the bidirectional conical cylinder (101).

8. The method of processing milled rice according to claim 7, wherein the step of: the germ rice processingequipment still includes screw seat (109), short column (202) and hand screw (203), and two upper and lower parts of two-way awl section of thick bamboo (101) all are provided with screw seat (109), and equal fixedly connected with short column (202) on two clamping rings (201), two short column (202) sliding connection respectively are on two screw seats (109), and hand screw (203) have all been pegged graft to the tip of two short columns (202), and the inner difference threaded connection of two hand screw (203) is on two screw seats (109).

9. The method of processing milled rice according to claim 8, wherein the step of: the germ rice processing device further comprises a main frame (301), and the folding frame (103) is fixedly connected to the upper part of the main frame (301).

10. The method of processing milled rice according to claim 9, wherein the step of: the germ rice processing device further comprises a groove box (401), a transverse moving column (403) and a sieve plate (404), the sieve plate (404) is arranged on the lower side of the groove box (401), the transverse moving column (403) is fixedly connected to the left side of the groove box (401), the transverse moving column (403) is connected to the main frame (301) in a transverse sliding mode, and the groove box (401) is located below the bidirectional conical cylinder (101).

Technical Field

The invention relates to the field of germ rice processing, in particular to a germ rice processing method.

Background

The most important center of rice is the germ. As the name implies, the so-called buds are the part of new life. The germ is equivalent to a part of the human stomach. As long as the nutrition analysis can also be used, various nutrients of the rice are concentrated in the rice, and the rice can also be a treasure house of the nutrients. The germ rice is rice with germ part of rice retained, and other parts are the same as rice with white rice. In fact, the most important center of the rice is the germ. It is important to retain the germ in the rice.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention provides the germ rice processing method, which has the beneficial effect that germs can be kept in rice.

A method for processing germ rice comprises the following steps:

s1: putting the untreated rice into a germ rice processing device, and enabling rice husks to fall off in a differential rolling mode;

s2: sieving rice husks and rice, and collecting the rice husks;

s3: wrapping the outer surface of the separated rice with a layer of sugar to lock the germs in the rice;

s4: mixing sugar and rice, and uniformly coating the sugar on the surface of rice.

The germ rice processing device comprises a bidirectional conical cylinder and a bidirectional conical block, wherein the bidirectional conical block is arranged in the bidirectional conical cylinder, and a gap is formed between the bidirectional conical block and the bidirectional conical cylinder.

The bidirectional conical block and the bidirectional conical cylinder are coaxially arranged, and both the bidirectional conical block and the bidirectional conical cylinder rotate by taking the common axis of the bidirectional conical block and the bidirectional conical cylinder as an axis.

The bidirectional conical block and the bidirectional conical barrel rotate in a differential manner.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a flow chart of a method of processing rice with germ;

FIG. 2 is a first schematic structural view of a rice with germ processing apparatus;

FIG. 3 is a schematic structural view of a rice with germ processing apparatus;

FIG. 4 is a first structural schematic diagram of a bidirectional cone and a pressure ring;

FIG. 5 is a second schematic structural view of the bidirectional cone and the pressure ring;

FIG. 6 is a schematic view of the construction of the main frame;

FIG. 7 is a first schematic structural view of the pod cartridge;

FIG. 8 is a second schematic structural view of the cell;

FIG. 9 is a first schematic structural view of the frame box;

fig. 10 is a second structural diagram of the frame box.

In the figure: a bidirectional cone 101; a motor I102; a folding frame 103; a motor II 104; a hopper 105; a collar 106; a bidirectional taper block 107; a friction wheel 108; a screw seat 109;

a pressure ring 201; a stub 202; a hand screw 203;

a main frame 301; a left shaft 302; an elastic strip 303; a semi-circular container 304;

a pod cartridge 401; a fan 402; a traversing post 403; a screen panel 404; a cloth bag 405; a ramp 406;

a frame box 501; a hollow tube 502; a circular hole 503; a feed tube 504; a right shaft 505; a cross post 506; an elastic strip 507; a base 508; a vertical rod 509.

Detailed Description

A method for processing germ rice comprises the following steps:

s1: putting the untreated rice into a germ rice processing device, and enabling rice husks to fall off in a differential rolling mode;

s2: sieving rice husks and rice, and collecting the rice husks;

s3: wrapping the outer surface of the separated rice with a layer of sugar to lock the germs in the rice;

s1: mixing sugar and rice, and uniformly coating the sugar on the surface of rice.

Referring to fig. 1-10, an embodiment of the present invention is provided, which solves the main technical problem of separating rice from rice husks, and further,

because plumule rice processingequipment is including two-way awl section of thick bamboo 101 and two-way taper block 107, the inside of two-way awl section of thick bamboo 101 is provided with two-way taper block 107, be provided with the clearance between two-way awl section of thick bamboo 101 and the two-way taper block 107, put into untreated rice from the upside of two-way awl section of thick bamboo 101, make two-way awl section of thick bamboo 101 and two-way taper block 107 differential rotation, and then the differential rotation through two-way awl section of thick bamboo 101 and two-way taper block 107 rolls off the rice husk on the rice, and then separate between rice and the rice husk, and effectively carry out the intensive separation to rice and rice husk through the upside toper and the downside toper of two-way awl section of thick bamboo 101 and two-way taper block 107.

Referring to fig. 1-10, an embodiment of the present invention is provided, which solves the main technical problem of making the bidirectional cone block 107 and the bidirectional cone 101 rotate coaxially to separate rice from rice husks, and further,

because the bidirectional cone block 107 and the bidirectional cone cylinder 101 are coaxially arranged, the bidirectional cone block 107 and the bidirectional cone cylinder 101 both rotate around the common axis of the two. So that the bidirectional cone block 107 and the bidirectional cone cylinder 101 rotate coaxially to separate the rice from the rice husks.

Referring to fig. 1-10, an embodiment of the present invention is provided, which solves the main technical problem that the differential speed of the bidirectional cone block 107 and the bidirectional cone 101 can effectively separate rice husks from rice, and further,

due to the differential rotation of the bidirectional cone block 107 and the bidirectional cone barrel 101, the rice husks and the rice can be effectively separated through the differential speed of the bidirectional cone block 107 and the bidirectional cone barrel 101.

Referring to fig. 1-10, an embodiment of the present invention is provided, which solves the main technical problem of driving the bidirectional cone block 107 and the bidirectional cone cylinder 101 to rotate at a differential speed, and further,

because the germ rice processing device also comprises a motor I102, a folding frame 103, a motor II104, a lantern ring 106 and a friction wheel 108, the folding frame 103 is fixedly connected with the motor II104, an output shaft of the motor II104 is fixedly connected with a bidirectional conical block 107, the motor I102 is arranged on the folding frame 103, the friction wheel 108 is fixedly connected with the output shaft of the motor I102, the friction wheel 108 is in friction transmission with the outer side of the bidirectional conical cylinder 101, the lantern ring 106 is arranged at the lower end of the folding frame 103, the upper part of the bidirectional conical cylinder 101 is rotatably connected with the lantern ring 106, the bidirectional conical block 107 can be driven to rotate by the motor II104, the friction wheel 108 is driven to rotate by the motor I102, the bidirectional conical cylinder 101 is driven to rotate on the lantern ring 106, and the bidirectional conical block 107 and the bidirectional conical cylinder 101 are driven to rotate in a differential speed.

Referring to fig. 1-10, an embodiment of the present invention is provided, which solves the main technical problem of facilitating the pouring of rice from the upper side of the bidirectional cone 101, and further,

because the germ rice processing device also comprises a funnel 105, the funnel 105 is arranged at the upper part of the bidirectional cone 101, and the funnel 105 is arranged to facilitate the pouring of the rice from the upper side of the bidirectional cone 101 and prevent the rice from spilling everywhere.

Referring to fig. 1-10, an embodiment of the present invention is provided to solve the main technical problem of adjusting the power of husking and rolling rice, and further,

because plumule rice processingequipment still includes clamping ring 201, clamping ring 201 all is provided with one from top to bottom, two clamping rings 201 press two upper and lower parts at two-way awl section of thick bamboo 101 respectively, and then press two upper and lower parts at two-way awl section of thick bamboo 101 respectively through two clamping rings 201, make the inside elastic deformation of two-way upper and lower parts of awl section of thick bamboo 101, and then reduce the clearance between two-way awl piece 107 and the two-way awl section of thick bamboo 101, and then according to the different size in adjustment clearance of rice kind, and then the adjustment is to the dynamics that the rice was shelled and is rolled.

Referring to fig. 1-10, an embodiment of the present invention is provided, which solves the main technical problem of adjusting the size of the gap between the two-way cone block 107 and the two-way cone 101, and further,

because plumule rice processingequipment still includes screw seat 109, short column 202 and hand screw 203, screw seat 109 is provided with two, two screw seats 109 set up the upper and lower both ends at two-way awl section of thick bamboo 101 respectively, equal fixedly connected with short column 202 on two clamping rings 201, every short column 202 is sliding connection respectively on the screw seat 109 that corresponds, hand screw 203 has all been pegged graft to the tip of two short columns 202, the inner of two hand screws 203 is threaded connection respectively on two screw seats 109, and then can drive short column 202 vertical slip on screw seat 109 through rotating hand screw 203, and then adjust the dynamics that clamping ring 201 pressed on two-way awl section of thick bamboo 101, and then adjust the size in clearance between two-way cone piece 107 and the two-way awl section of thick bamboo 101.

Referring to fig. 1-10, an embodiment of the present invention is provided, which solves the main technical problem that the main frame 301 can support the folding frame 103, and further,

because the rice with plumule processingequipment still includes the body frame 301, roll over frame 103 fixed connection in the upper portion of body frame 301, body frame 301 can support roll over frame 103.

Referring to fig. 1-10, an embodiment of the present invention is provided, which solves the main technical problem of sieving rice and rice husks, and further,

because germ rice processingequipment still includes the groove box 401, sideslip post 403 and sieve 404, the sieve 404 sets up the downside at groove box 401, sideslip post 403 fixed connection is in the left side of groove box 401, groove box 401 is located the below of two-way awl section of thick bamboo 101, sideslip post 403 lateral sliding connects on body frame 301, and then with rice and rice husk separation back, rice and rice husk fall into the groove box 401 in, then through slider-crank mechanism drive sideslip post 403 reciprocating sliding about on body frame 301, and then drive groove box 401 reciprocating sliding about, and then the rice falls down from sieve 404, the rice husk is stayed in groove box 401, sieve rice and rice husk.

The germ rice processing device further comprises a fan 402, a cloth bag 405 and an inclined plane 406, the plurality of fans 402 are arranged on the left side of the groove box 401, the inclined plane 406 is arranged on the lower portion of the right side of the groove box 401, and the cloth bag 405 is arranged on the upper portion of the right side of the groove box 401.

Referring to fig. 1-10, an embodiment of the present invention is provided, which solves the main technical problem of collecting rice husks blown into a cloth bag 405, and further,

the fan 402 can blow air, so that rice husks left in the groove box 401 are blown to the inclined plane 406 and then blown into the cloth bag 405 to be collected.

The rice processing device of plumule still includes frame box 501, hollow tube 502, round hole 503, inlet pipe 504, right side axle 505, base 508 and pole setting 509, the lower part fixed connection of main frame 301 is on base 508, the right-hand member fixedly connected with pole setting 509 of base 508, the right side fixedly connected with right side axle 505 of frame box 501, right side axle 505 rotates the upper portion of connecting in pole setting 509, right side axle 505 passes through servo motor I drive, there are a plurality of hollow tubes 502 in the past on the bottom surface of frame box 501, all be provided with a plurality of round holes 503 on a plurality of hollow tubes 502, the right-hand member of a plurality of hollow tubes 502 all is provided with inlet pipe 504, frame box 501 is located the below of groove box 401.

Referring to fig. 1 to 10, an embodiment of the present invention is provided to solve the main technical problem of wrapping germs on rice to prevent germs on rice from losing, and further,

the rice of following sieve 404 department sieve falls in the upside of frame box 501, can let in the syrup in to hollow tube 502 through inlet pipe 504, then the syrup flows out from a plurality of round holes 503, rotate through servo motor drive right axle 505, and then drive frame box 501 through the preceding back swing of right axle 505, and then make the syrup mix with the rice in the frame box 501, wrap up the outside at the rice with the syrup, and then live the plumule parcel on the rice, prevent that the plumule on the rice from running off.

Germ rice processingequipment still includes left axle 302, elasticity strip 303, semi-circular container 304, spreader 506 and elastic strip 507, semi-circular container 304's left side is provided with left axle 302, left axle 302 rotates and connects on body frame 301, be provided with a plurality of elasticity strips 303 from the past to the back on semi-circular container 304's the inner peripheral surface, the right-hand member fixed connection of spreader 506 is at the middle part of pole setting 509, the downside of spreader 506 is provided with a plurality of elastic strips 507 from a left side to the right side, semi-circular container 304 is all inserted to a plurality of elastic strips 507, a plurality of elastic strips 507 can contact with a plurality of elasticity strips 303.

Referring to fig. 1 to 10, an embodiment of the present invention is provided, which solves a main technical problem of uniformly coating sugar on the surface of rice, and further,

after the rice package sugar of frame box 501 upside finishes, pour the rice of frame box 501 upside into semi-circular container 304 in, through servo motor drive semi-circular container 304 through left axle 302 swing back and forth, then the rice constantly moves between a plurality of elasticity strips 303 on semi-circular container 304, and because during the swing of semi-circular container 304, a plurality of elasticity strips 507 can move relatively to a plurality of elasticity strips 303 on it, a plurality of elasticity strips 507 can constantly stir a plurality of elasticity strips 507, constantly lengthen a plurality of elasticity strips 507, make the rice constantly launch between a plurality of elasticity strips 507 in semi-circular container 304, and then fully stir sugar and rice, make the sugar evenly coat on the surface of rice.