CN211190303U - Self-suction type rice milling and bran crushing combined machine - Google Patents

Abstract

The utility model discloses a self-suction type rice milling and chaff crushing combined machine. The utility model provides a rice mill often can mix into the chaff because of the problem of separation technology when carrying out the rice bran separation in leading to the rice, influence the production quality's of rice problem. The utility model discloses a scheme: the rice bran processing device comprises a base, wherein a feeding bin is installed on the base and provided with a feeding hole, one end of the feeding bin is connected with a stirring bin, one end of the stirring bin is provided with a rice outlet, and a bran outlet is formed in the base. The utility model discloses can make the complete separation of chaff and rice in the rice production process, improve the production quality of rice.

Description

Self-suction type rice milling and bran crushing combined machine

Technical Field

The utility model belongs to the technical field of the rice, especially, relate to a from inhaling formula husk rice chaff combination machine.

Background

The rice mill mainly comprises a fixed spanner, a tightening nut spanner, a brush, a discharging hopper, a grinding wheel, a steel wire brush and the like, wherein the brown rice is peeled and whitened by applying mechanical acting force which is widely generated by mechanical equipment, and the mechanical equipment is called as the rice mill.

At present, the rice milling process of brown rice utilizes friction and grinding action to strip a rice bran layer, the friction rice milling requires a polishing chamber with high pressure and a certain polishing speed, so the friction rice milling is also called pressure rice milling, the grinding rice milling does not require high polishing chamber pressure, and high linear speed and a rice milling roller with a plurality of micro blades are required, so the grinding rice milling is also called speed rice milling.

In the prior art, bran often enters rice due to the problem of a separation process when the rice bran is separated by the rice mill, so that the production quality of the rice is affected.

SUMMERY OF THE UTILITY MODEL

To among the prior art rice mill often lead to mixing into the chaff in the rice because of separation process's problem when carrying out the rice bran separation, influence the production quality's of rice problem, the utility model provides a self-priming husk rice broken chaff combination machine, its aim at: can completely separate bran and rice in the rice production process and improve the production quality of rice.

The utility model adopts the technical scheme as follows:

a self-suction type rice milling and chaff breaking combined machine comprises a base, wherein a feeding bin is installed on the base and is provided with a feeding hole, one end of the feeding bin is connected with a stirring bin, an interlayer is arranged between the feeding bin and the stirring bin, a plurality of small holes I are uniformly formed in the interlayer, a through hole is formed in the middle of the interlayer, a rotating shaft is arranged in the stirring bin, the cross section of the rotating shaft is matched with the through hole, the rotating shaft penetrates through the through hole and is arranged in the feeding bin, a rotating wheel is fixedly arranged at one end of the rotating shaft in the feeding bin and is connected with a belt, the belt is connected with a motor, a rice outlet is formed in one end, away from the feeding bin, of the stirring bin, a limiting block is arranged at the bottom of the stirring bin, a limiting block is fixedly arranged at one end, connected with the feeding bin, the stopper is hollow structure, the stopper bottom is provided with opening I, stirring storehouse bottom is provided with opening II, opening I matches and coincides with II sizes of opening, the stopper is kept away from and is provided with several aperture II on the lateral wall in feeding storehouse, stirring storehouse lower extreme is connected with collects the storehouse, it has the negative pressure storehouse to collect the storehouse through pipe connection, the lower extreme in negative pressure storehouse is provided with out the chaff mouth.

The scheme is adopted, the base is of an open structure, the base is connected with a feeding bin through a bolt, the upper part of the feeding bin is provided with a feeding hole, the right end of the feeding bin is connected with a stirring bin, a partition layer is arranged at the connecting part of the feeding bin and the stirring bin, a plurality of small holes I are uniformly arranged on the partition layer, the size of the small holes I is slightly smaller than that of rice without shelling, a through hole is arranged in the middle of the partition layer, a bearing is fixedly arranged on the inner wall of one end of the stirring bin, one end of a rotating shaft is fixedly connected with the bearing, the other end of the rotating shaft penetrates through the through hole to reach the feeding bin and is fixedly connected with the bearing arranged on the inner wall of the feeding bin, the rotating shaft can rotate freely under the premise of the bearing, a rotating wheel is fixedly connected on the rotating shaft in the stirring bin, the rotating wheel can drive, so the belt can drive the rotating wheel to rotate, the other end of the belt is connected with the motor, the motor is arranged in the base, the bottom of the feeding bin is provided with a belt hole, the belt penetrates through the belt hole to enter the inside of the base to be connected with the motor in the base, the belt hole is positioned at one end of the feeding bin, one side of the belt hole is provided with a partition plate, a through hole through which the rotating shaft penetrates is arranged on the partition plate, the partition plate can prevent rice from entering the belt hole to fall into the base in the rice shelling process, the bottom of the stirring bin is provided with a limit block, the width of the limit block is the same as the width of the stirring bin, but the length of the limit block is smaller than the length of the inside of the stirring bin, a channel is formed between the stirring bin and the limit block, rice bran moves along the channel after entering the stirring bin, when the rice bran moves to the, under the effect of negative pressure, inside the chaff got into the stopper through aperture II, get into through opening I and opening II after that and collect the storehouse, the side of collecting storehouse 9 has set up the export of chaff, pipeline 6 has been connected in the exit, not only can suck away the chaff through setting up the export in the side, also can suck away the broken rice, it has connected the negative pressure storehouse through the pipeline to collect the storehouse, be provided with miniature aspiration pump in the negative pressure storehouse, this belongs to prior art, the chaff falls out from a chaff outlet through the effect of negative pressure at last. The rice falls out from the rice outlet under gravity and extruded effect, and this scheme can be with the chaff in the rice separate out completely, can obtain the rice of higher quality, has improved the production quality of rice.

The height of the feeding bin is smaller than that of the stirring bin, the feeding bin is connected with the stirring bin, and the feeding bin is connected to the upper portion of the side wall of the stirring bin.

Having adopted this scheme, the height in stirring storehouse is highly less than in feeding storehouse, and the lateral wall in feeding storehouse is connected with the lateral wall in stirring storehouse, and the feeding storehouse is connected and is stirred the upper end of storehouse lateral wall, because be provided with the stopper in the stirring storehouse, if the feeding storehouse sets up that the lower part rice bran in stirring storehouse can not get into next step's process under the blockking of stopper, then set up the feeding storehouse on the upper portion of stirring storehouse lateral wall, and the rice bran can almost all get into the stirring storehouse under the effect of negative pressure, then has improved work efficiency.

The feed inlet is funnel-shaped and is fixedly connected with the feeding bin.

By adopting the scheme, the rice bags can be thrown into the feed inlet in a large amount in the feeding bin, if the feed inlet is too narrow and small, the rice is overflowed, and the feed inlet is set to be funnel-shaped so as to prevent the rice from overflowing when the feeding speed is too fast.

The feeding bin is characterized in that a plurality of impact blocks are arranged at the position, where the rotating shaft is located, of the feeding bin, and the impact blocks are evenly arranged.

Having adopted this scheme, being provided with 8 striking pieces in the feeding storehouse at axis of rotation place, the shape of striking piece is square, and the striking piece is through welding in the axis of rotation, and the equidistance sets up between the striking piece, under the effect of striking piece, is better to the polishing effect of rice, efficiency when having improved the rice shelling.

Wherein, the lateral wall of the stopper far away from the feeding bin and the included angle of the bottom of the stopper are 40-60 degrees.

By adopting the scheme, the included angle between the side wall of the limiting block far away from the feeding bin and the bottom of the limiting block is set to be 45 degrees, and rice bran can move downwards along the side wall of the limiting block far away from the feeding bin when moving in the channel, so that bran can fall into the limiting block along with the gravity of the bran, and the bran removing effect is better by the scheme.

Wherein the bottom of the feeding bin forms an included angle of 40-60 degrees with the horizontal plane.

Having adopted this scheme, the bottom in feeding storehouse sets up to 45 with the contained angle of horizontal plane, and the bottom in feeding storehouse is the slope layer, makes the rice bran in the feeding storehouse get into the stirring storehouse more easily under the effect of gravity component like this, has prevented that the negative pressure is not enough, and the rice bran is piled up in the feeding storehouse.

The bottom of the feeding bin is provided with a hole I, the base is equidistantly provided with a hole II, and the hole I is matched with the hole II.

By adopting the scheme, the two ends of the bottom of the feeding bin are provided with the holes I, the two rows of holes II matched with the holes I are arranged on the base at equal intervals, and the stability of the machine can be ensured by fixing the holes II at different positions through the holes I when the machine operates coaxially.

Wherein, be provided with the fan blade in the negative pressure storehouse.

By adopting the scheme, the fan blades in the negative pressure bin are connected with the motor, the fan blades are connected with the movable fluted disc, the motor controls the rotation of the fan blades, and the fan blades pump air in the pipeline after rotating, so that the pressure in the pipeline is reduced, and the bran pumping effect is better.

To sum up, owing to adopted above-mentioned technical scheme, the beneficial effects of the utility model are that:

1. the scheme can completely separate bran from rice, can obtain rice with higher quality, and improves the production quality of the rice.

2. The rice bran can almost all get into the stirring storehouse under the effect of negative pressure, then has improved work efficiency.

3. The feeding storehouse can throw the rice bag to the feed inlet in a large number when the feeding, if the feed inlet is too narrow and small can lead to the excessive of rice, the feed inlet sets up to leak hopper-shaped and can prevent the excessive of rice when feed rate is too fast.

4. Be provided with 8 striking pieces in the feeding storehouse at axis of rotation place, the shape of striking piece is square, and the striking piece is through the welding in the axis of rotation, and the equidistance sets up between the striking piece, under the effect of striking piece, is better to the polishing effect of rice, has improved the efficiency when the rice shelling.

5. The lateral wall that the feeding storehouse was kept away from to the stopper sets up to 45 with the contained angle of stopper bottom, and inside the bran can fall into the stopper along the gravity of self along the stopper like this bran can be moved down to the lateral wall that the feeding storehouse was kept away from to the rice bran when the passageway removed, and this scheme makes except that the chaff effect is better.

6. The bottom in feeding storehouse sets up to 45 with the contained angle of horizontal plane, and the bottom in feeding storehouse is the inclined layer, makes the rice bran in the feeding storehouse get into the stirring storehouse more easily under the effect of gravity component like this, has prevented that the negative pressure is not enough, and the rice bran is piled up in the feeding storehouse.

7. When the machine runs coaxially, the holes II at different positions can be fixed through the holes I to achieve the stability of the machine.

8. The fan blades in the negative pressure bin are connected with a motor, the fan blades are connected with a movable fluted disc, the motor controls the rotation of the fan blades, and the fan blades pump air in the pipeline after rotating, so that the pressure in the pipeline is reduced, and the bran pumping effect is better.

Drawings

The invention will now be described, by way of example, with reference to the accompanying drawings, in which:

fig. 1 is a schematic view of the present invention.

Fig. 2 is a front view of the present invention.

Fig. 3 is a schematic view of the connection between the feeding bin and the stirring bin of the present invention.

Fig. 4 is a schematic view of the fan blade and the movable fluted disc of the present invention.

Marked in the figure; 1-base, 2-feeding bin, 3-feeding port, 4-stirring bin, 5-rice outlet, 6-pipeline, 7-bran outlet, 8-rotating wheel, 9-collecting bin, 10-rotating shaft, 11-small hole II, 12-limiting block

Detailed Description

All of the features disclosed in this specification, or all of the steps in any method or process so disclosed, may be combined in any combination, except combinations of features and/or steps that are mutually exclusive.

The present invention will be described in detail with reference to fig. 1 to 4.

A self-suction type rice milling and chaff crushing combined machine comprises a base 1, wherein a feeding bin 2 is installed on the base 1, the feeding bin 2 is provided with a feeding hole 3, one end of the feeding bin 2 is connected with a stirring bin 4, an interlayer 14 is arranged between the feeding bin 2 and the stirring bin 4, a plurality of small holes I13 are uniformly arranged on the interlayer 14, a through hole is formed in the middle of the interlayer 14, a rotating shaft 10 is arranged in the stirring bin 4, the cross section of the rotating shaft 10 is matched with the through hole, the rotating shaft 10 penetrates through the through hole to be arranged in the feeding bin 2, a rotating wheel 8 is fixedly arranged at one end of the rotating shaft 10 in the feeding bin 2, the rotating wheel 8 is connected with a belt, the belt is connected with a motor, a rice outlet 5 is formed in one end, away from the feeding bin 2, of the stirring bin 4, a limiting block 12 is arranged at the bottom of the stirring bin 4, and, stopper 12 and 4 inside passageways that have formed in stirring storehouse, stopper 12 is hollow structure, stopper 12 bottom is provided with opening I, 4 bottoms in stirring storehouse are provided with opening II, opening I matches and coincides with II sizes of opening, stopper 12 is provided with several aperture II 11 on keeping away from the lateral wall in feeding storehouse 2, 4 lower extremes in stirring storehouse are connected with and collect storehouse 9, it is connected with the negative pressure storehouse to collect storehouse 9 through pipeline 6, the lower extreme in negative pressure storehouse is provided with out chaff mouth 7.

The base 1 is of an open structure, the base 1 is connected with a feeding bin 2 through a bolt, the upper part of the feeding bin 2 is provided with a feeding hole 3, the right end of the feeding bin 2 is connected with a stirring bin 4, a partition 14 is arranged at the connecting part of the feeding bin 2 and the stirring bin 4, a plurality of small holes I13 are uniformly arranged on the partition 14, the size of the small holes I13 is slightly smaller than that of rice without shelling, a through hole is arranged in the middle of the partition 14, a bearing is fixedly arranged on the inner wall of one end of the stirring bin 4, one end of a rotating shaft 10 is fixedly connected with the bearing, the other end of the rotating shaft 10 penetrates through the through hole to reach the feeding bin 2 and is fixedly connected with the bearing arranged on the inner wall of the feeding bin 2, the rotating shaft 10 can rotate freely on the premise of the bearing, a rotating wheel 8 is fixedly connected with the rotating shaft 10 in the stirring bin 4, because the friction force between the belt and the rotating wheel 8 is very large, the belt can drive the rotating wheel 8 to rotate, the other end of the belt is connected with a motor, the motor is arranged in the base 1, the bottom of the feeding bin 2 is provided with a belt hole, the belt penetrates through the belt hole to enter the base 1 and is connected with the motor in the base 1, the belt hole is positioned at one end of the feeding bin 2, one side of the belt hole is provided with a partition plate, a through hole through which the rotating shaft 10 penetrates is arranged on the partition plate, the partition plate can prevent rice from entering the belt hole to fall into the base 1 in the rice husking process, the bottom of the stirring bin 4 is provided with a limiting block 12, the width of the limiting block 12 is the same as the width in the stirring bin 4, but the length of the limiting block 12 is smaller than the length in the stirring bin 4, a channel is formed between the stirring bin 4 and the limiting block 12, be provided with aperture II 11 on the lateral wall of stopper 12, the size of aperture II 11 is greater than the size of chaff, but be less than the size of rice, under the effect of negative pressure, the chaff gets into stopper 12 inside through aperture II 11, get into collection storehouse 9 through opening I and opening II after that, the side of collection storehouse 9 has set up the export of chaff, pipeline 6 has been connected in the exit, not only can siphoning away the chaff through setting up the export in the side, also can siphoning away broken rice, collection storehouse 9 has connected the negative pressure storehouse through pipeline 6, be provided with miniature aspiration pump in the negative pressure storehouse, this belongs to prior art, the chaff falls out from chaff outlet 7 through the effect of negative pressure at last. The rice falls out from rice outlet 5 under gravity and extruded effect, and this scheme can be with the chaff in the rice separate out completely, can obtain the rice of higher quality, has improved the production quality of rice.

The utility model discloses an another kind of scheme, the height that highly is less than stirring storehouse 4 in feeding storehouse 2, feeding storehouse 2 is connected with stirring storehouse 4, feeding storehouse 2 is connected in the upper portion of stirring 4 lateral walls in storehouse.

The height that highly is less than stirring storehouse 4 in feeding storehouse 2, the lateral wall in feeding storehouse 2 is connected with the lateral wall in stirring storehouse 4, feeding storehouse 2 is connected and is stirred the upper end of 4 lateral walls in storehouse, because be provided with stopper 12 in the stirring storehouse 4, if feeding storehouse 2 sets up and can not get into next step's process under the lower part rice bran in stirring storehouse 4 of stopper 12 blockking, then with the upper portion of feeding storehouse setting at stirring storehouse 4 lateral wall, the rice bran can almost all get into stirring storehouse 4 under the effect of negative pressure, then work efficiency has been improved.

The utility model discloses an another scheme, the shape of feed inlet 3 is for leaking hopper-shaped, feed inlet 3 and 2 fixed connection in feeding storehouse.

Feeding storehouse 2 can throw the rice bag to feed inlet 3 in a large number when the feeding, if feed inlet 3 is too narrow and small can lead to the excessive of rice, feed inlet 3 sets up to leak hopper-shaped can prevent the excessive of rice when feed rate is too fast.

The utility model discloses a another scheme, the position in axis of rotation 10 place feeding storehouse 2 is provided with several striking piece, evenly set up between the striking piece.

Be provided with 8 striking pieces in the feeding storehouse 2 at axis of rotation 10 place, the shape of striking piece is square, and the striking piece is through welding on axis of rotation 10, and the equidistance sets up between the striking piece, and under the fast effect of striking, it is better to the polishing effect of rice, efficiency when having improved the rice shelling.

The utility model discloses another scheme, the lateral wall that feeding storehouse 2 was kept away from to stopper 12 and the contained angle of stopper 12 bottom are 40-60.

The lateral wall that feeding storehouse 2 was kept away from to stopper 12 sets up to 45 with the contained angle of stopper 12 bottom, and the rice bran can be along stopper 12 lateral wall down-shifting that keeps away from feeding storehouse 2 when the passageway removes inside the stopper 12 can be fallen into along with the gravity of self like this, and this scheme makes except that the chaff effect is better.

In another scheme of the utility model, the included angle between the bottom of the feeding bin 2 and the horizontal plane is 40-60 degrees.

The bottom in feeding storehouse 2 sets up to 45 with the contained angle of horizontal plane, and the bottom in feeding storehouse 2 is the inclined layer, makes the rice bran in feeding storehouse 2 get into stirring storehouse 4 under the effect of gravity component more easily like this, has prevented that the negative pressure is not enough, and the rice bran is piled up in feeding storehouse 2.

The utility model discloses an another kind of scheme, 2 bottoms in feeding storehouse are provided with porose I, the equidistance is provided with porose II on the base 1, hole I cooperates with hole II.

The both ends of the bottom of feed bin 2 are provided with hole I, and base 1 is gone up the equidistance and has been set up two rows and hole II with I complex in hole, then can guarantee that the machine can come the hole II of fixed different positions through hole I when coaxial operation to reach the stability of machine.

The utility model discloses an another scheme, be provided with the fan blade in the negative pressure storehouse.

The fan blades in the negative pressure bin are connected with a motor, the fan blades are connected with a movable fluted disc, the motor controls the rotation of the fan blades, and the fan blades pump air in the pipeline after rotating, so that the pressure in the pipeline is reduced, and the bran pumping effect is better.

The above-mentioned embodiments only express the specific embodiments of the present application, and the description thereof is more specific and detailed, but not construed as limiting the scope of the present application. It should be noted that, for those skilled in the art, without departing from the technical idea of the present application, several changes and modifications can be made, which are all within the protection scope of the present application.

Claims (8)

1. The self-suction type rice milling and bran crushing combined machine is characterized by comprising a base (1), wherein a feeding bin (2) is mounted on the base (1), a feeding hole (3) is formed in the feeding bin (2), a stirring bin (4) is connected to one end of the feeding bin (2), an interlayer (14) is arranged between the feeding bin (2) and the stirring bin (4), a plurality of small holes I (13) are uniformly formed in the interlayer (14), a through hole is formed in the middle of the interlayer (14), a rotating shaft (10) is arranged in the stirring bin (4), the rotating shaft (10) is matched with the through hole, one end of the rotating shaft (10) penetrates through the through hole and is arranged in the feeding bin (2), a rotating wheel (8) is fixedly connected to one end, in the feeding bin (2), of the rotating shaft (10), and a driving device is arranged on the rotating wheel (8), a rice outlet (5) is arranged at one end of the stirring bin (4) far away from the feeding bin (2), the bottom of the stirring bin (4) is provided with a limiting block (12), one end of the stirring bin (4) connected with the feeding bin (2) is fixedly provided with the limiting block (12), the limiting block (12) and the stirring bin (4) form a channel, the limiting block (12) is of a hollow structure, the bottom of the limiting block (12) is provided with a through hole I, the bottom of the stirring bin (4) is provided with a through hole II, the through opening I and the through opening II are matched in size and coincide, the side wall of the limiting block (12) far away from the feeding bin (2) is provided with a plurality of small holes II (11), the stirring storehouse (4) lower extreme is connected with collects storehouse (9), it is connected with the negative pressure storehouse to collect storehouse (9) through pipeline (6), the lower extreme in negative pressure storehouse is provided with out chaff mouth (7).

2. The self-suction type rice milling and bran crushing combined machine as claimed in claim 1, wherein the height of the feeding bin (2) is less than that of the stirring bin (4), the feeding bin (2) is connected with the stirring bin (4), and the feeding bin (2) is connected to the upper part of the side wall of the stirring bin (4).

3. The self-suction type rice milling and bran crushing combined machine as claimed in claim 1, wherein the feed port (3) is funnel-shaped, and the feed port (3) is fixedly connected with the feed bin (2).

4. The self-suction type rice milling and bran crushing combined machine as claimed in claim 1, wherein a plurality of impact blocks are arranged at the position of the feeding bin (2) where the rotating shaft (10) is located, and the impact blocks are uniformly arranged.

5. The self-suction type rice milling and bran crushing combined machine as claimed in claim 1, wherein the included angle between the side wall of the limiting block (12) far away from the feeding bin (2) and the bottom of the limiting block (12) is 40-60 degrees.

6. The self-priming rice milling and bran crushing combined machine as claimed in claim 1, wherein the included angle between the bottom of the feeding bin (2) and the horizontal plane is 40-60 °.

7. The self-suction type rice milling and bran crushing combined machine as claimed in claim 1, wherein holes I are formed in the bottom of the feeding bin (2), holes II are formed in the base (1) at equal intervals, and the holes I are matched with the holes II.

8. The self-priming rice milling and bran crushing combined machine as claimed in claim 1, wherein fan blades are arranged in the negative pressure bin.

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