CN114192209A - High-flux rice processing device and processing method thereof - Google Patents

Abstract

The invention provides a high-flux rice processing device and a processing method thereof, wherein the high-flux rice processing device comprises a conveying channel, a conveying auger and a peeling component; through the setting of auger section, it can carry out the axial transport removal that lasts to the rice to make the rice material of treating the mill skin carry out the upset motion at the in-process of carrying, simultaneously through the setting of heating structure, make transfer passage produce the heat and carry out drying process. In the process of transporting materials, the rice is ground through the grinding roller section. The conveying and the peeling of the materials are divided into a plurality of interval sections, namely, the materials are conveyed continuously, and the peeling process of the rice is finished at a plurality of positions, so that the peeling process can be carried out for a plurality of times to finally obtain the rice particles meeting the requirements. In addition, the rice is heated and dried in the rice conveying process, so that the rice is easier to peel and peel.

Description

High-flux rice processing device and processing method thereof

Technical Field

The invention relates to a rice processing device, in particular to a high-flux rice processing device which can dry and grind rice and improve grinding efficiency.

Background

In the later processing process of the rice, the skin of the rice is generally required to be ground, namely, the brown rice is processed into the rice which can be directly eaten, and the ground rice or polished rice has better taste and is suitable for people to eat.

For the device that the buffing was used, adopt a set of relative arrangement's buffing roll body to grind the skin operation usually among the prior art, however in practice find that this kind of buffing structure has the problem that the buffing volume is little, can't realize the improvement of order of magnitude, in addition be its structure be vertical state usually in addition, this has raised the challenge to the stability of device structure under certain circumstances. In addition, during the husking process, the rice to be husked often contains a certain amount of moisture, and the husking process is difficult due to the moisture or the moisture content of the rice to be husked, namely, the husks and the inner core of the rice are not easy to fall off or separate. Although it is possible to dry the rice before the husking operation, it is inevitable to increase many processes and the labor cost and time cost are high.

Disclosure of Invention

In order to solve the problems in the prior art, the invention provides a device structure capable of realizing integrated processing of drying and peeling, and the peeling structure is in a horizontal placement state, namely the transportation direction of materials is in a horizontal direction, so that the structural stability can be improved, the quantity of the materials can be increased, and the peeling process of a larger amount of rice can be completed in the same time.

The invention provides a high-flux rice processing device which comprises a conveying channel, a conveying auger and a peeling component, wherein the conveying auger is arranged on the conveying channel;

an electric heating structure is arranged in the conveying channel;

the conveying auger is arranged in the conveying channel and is provided with a plurality of auger sections and grinding roller sections which are arranged at intervals;

the buffing component is provided with a driving motor, a driving rod, a first driving gear, a driven gear, a connecting plate, a driving plate and an inner rotary barrel which are connected in sequence; the inner rotating barrel is of a hollow structure, the inner part of the inner rotating barrel is provided with a buffing inner wall surface, the buffing inner wall surface surrounds the periphery of the buffing roller section, and a clamping buffing area is formed between the buffing inner wall surface and the buffing roller section; the driving motor is fixed on the outer wall of the conveying channel, the first driving gear is meshed with the driven gear, the driven gear is a ring gear, and the side part of the driven gear is connected to the driving plate; the both ends of skin internal face have the pan feeding section structure, the pan feeding section structure has the hourglass shape that is the state of accomodating gradually.

The beneficial effect that above-mentioned scheme produced does: through the setting of auger section, it can carry out the axial transport removal that lasts to the rice to make the rice material of treating the mill skin carry out the upset motion at the in-process of carrying, simultaneously through the setting of heating structure, make transfer passage produce the heat and carry out drying process. In the process of transporting materials, the rice is ground through the grinding roller section. The conveying and the peeling of the materials are divided into a plurality of interval sections, namely, the materials are conveyed continuously, and the peeling process of the rice is finished at a plurality of positions, so that the peeling process can be carried out for a plurality of times to finally obtain the rice particles meeting the requirements. In addition, the rice is heated and dried in the rice conveying process, so that the rice is easier to peel and peel.

Preferably, the conveying passage has a sliding track on the outside thereof, and the driven gear has a sliding body on the inside thereof, the sliding body being slidably disposed in the sliding track.

Preferably, an auxiliary plate is further arranged on one side of the driving plate, and the auxiliary plate is connected to the inner rotating barrel through a bolt.

Preferably, the driven gear has a notch portion, the driving rod is connected to the second driving gear through a timing belt, and the diameter of the second driving gear is larger than that of the first driving gear, and the second driving gear is also used for driving the driven gear in a meshing manner.

According to a preferable scheme, a feeding opening is formed in the upstream side of the conveying channel, a feeding hopper is arranged above the feeding opening, and control valves are arranged at the positions of the feeding hopper and the feeding opening.

One preferred scheme is that the conveying channel is erected on the fixing plate, and one end of the conveying auger is connected with the auger motor through the conveying chain.

In a preferable scheme, the upper wall of the conveying channel is provided with a rice husk outlet, the lower wall of the conveying channel is provided with an air inlet, the rice husk outlet is connected with a recycling box, and the air inlet is connected with an air pump.

Preferably, a receiving assembly is arranged at the downstream end of the conveying channel, the receiving assembly is provided with a conveying belt and a containing barrel, the containing barrel is arranged on the conveying belt, and the containing barrel is used for receiving and containing the rice below the downstream end of the conveying channel.

The invention provides a working method of a high-flux rice processing device, which comprises the following steps:

s1: adding rice to be polished into the conveying channel, enabling the rice in the conveying channel to be in a continuous moving state through the conveying auger, and forming a heating and drying state through the electric heating structure so as to dry the rice to be polished in the conveying channel;

s2: when the conveying auger conveys the rice to be polished to the clamping and polishing area, the rice in conveying is clamped and polished through the polishing inner wall surface of the internal rotating barrel and the polishing roller section, so that the rice peel of the rice is gradually peeled; because the peeling roller sections at a plurality of positions and the inner wall surface of the peeling of the internal rotating barrel are arranged, the rice to be peeled is subjected to peeling operation at a plurality of sections under the drive of the conveying auger, so that the peeling treatment operation is carried out for a plurality of times, and the effect of fully peeling is realized;

wherein, the rotation process of interior commentaries on classics bucket drives actuating lever, first drive gear through driving motor in proper order and carries out work, and first drive gear meshing drives driven gear and rotates, and driven gear then correspondingly drives interlock board and adversion bucket and carries out circumferential motion.

Preferably, the conveying passage has a sliding track on the outside thereof, and the driven gear has a sliding body on the inside thereof, the sliding body being slidably disposed in the sliding track;

the working method comprises the following steps: when the driven gear rotates in the circumferential direction, the sliding body of the driven gear moves along the sliding track, so that the guiding and positioning effects are achieved.

One preferable scheme is that one side of the driving plate is also provided with an auxiliary plate, and the auxiliary plate is connected to the inner rotating barrel through a bolt; the working method comprises the following steps: through the connection relation of the bolts, the inner rotary barrel can be connected and fixed on the auxiliary plate so as to strengthen the connection and fixation relation.

Preferably, the driven gear has a notch portion, the driving rod is connected to the second driving gear through a timing belt, and the diameter of the second driving gear is larger than that of the first driving gear, and the second driving gear is also used for driving the driven gear in a meshing manner;

the working method comprises the following steps: when breach portion rotates first drive gear then first drive gear loses the drive effect, second drive gear drives the rotation to driven gear this time, and breach portion is semi-circular structure, first drive gear and second drive gear can mesh the drive to driven gear in turn promptly, and because first drive gear and second drive gear's diameter is different, and then can make driven gear rotate with different rotational speeds, and carry out the action of polishing skin to inside rice in turn with different rotational speeds, the change of polishing skin speed makes the rice take place certain vibration effect, can make the effect of polishing skin strengthened like this.

According to a preferable scheme, a feeding opening is formed in the upstream side of the conveying channel, a feeding hopper is arranged above the feeding opening, and control valves are arranged at the positions of the feeding hopper and the feeding opening;

the working method comprises the following steps: the rice to be polished is added into the feeding hopper, and the material in the feeding hopper is discharged into the conveying channel under the control action of the control valve.

One preferred scheme is that the conveying channel is erected on the fixing plate, and one end of the conveying auger is connected with an auger motor through a conveying chain; the working method comprises the following steps: the conveying chain drives the conveying auger to work under the driving of the auger motor.

A preferable scheme is that the upper wall of the conveying channel is provided with a rice husk outlet, the lower wall of the conveying channel is provided with an air inlet, the rice husk outlet is connected with a recycling box, and the air inlet is connected with an air pump;

the working method comprises the following steps that through the working of the air pump, airflow enters the conveying channel along the air inlet, and the airflow enables the rice husks in the conveying channel to enter the recycling box along the rice husk outlet.

Preferably, a receiving assembly is arranged at the downstream end of the conveying channel, the receiving assembly is provided with a conveyor belt and a containing barrel, the containing barrel is arranged on the conveyor belt, and the containing barrel is used for receiving and containing the rice below the downstream end of the conveying channel;

the working method comprises the following steps: the rice of the downstream port of the conveying channel gradually falls into the containing barrel, the containing barrel which is full of rice is moved downstream through the conveying belt, and the other containing barrel is moved to the lower part of the downstream port through the conveying belt to receive the rice.

Drawings

FIG. 1 is a schematic view showing the construction of a high throughput rice processing apparatus according to the present invention.

FIG. 2 is a schematic view of another high throughput rice processing apparatus according to the present invention.

FIG. 3 is a schematic view showing a partial structure of a high-throughput rice processing apparatus according to the present invention in a sectional view.

FIG. 4 is a schematic view showing a partial structure of the packing auger structure and other components of the high throughput rice processing apparatus of the present invention.

FIG. 5 is a schematic view showing a partial structure of a high-throughput rice processing apparatus according to the present invention.

Detailed Description

The first embodiment:

as shown in figures 1 to 5, the high-flux rice processing device provided by the invention comprises a conveying channel 10, a conveying auger 110 and a peeling assembly 20.

An electric heating structure is provided inside the conveyance passage 10.

The conveying auger 110 is arranged in the conveying channel 10, and the conveying auger 110 is provided with a plurality of auger sections 11 and grinding roller sections 12 which are arranged at intervals;

the buffing assembly 20 has a driving motor 21, a driving rod 22, a first driving gear 23, a driven gear 24, a connecting plate 25, a driving plate 26 and an inner rotary drum 27 connected in sequence. The inner rotary barrel 27 is of a hollow structure, the inner part of the inner rotary barrel 27 is provided with a buffing inner wall surface 28, the buffing inner wall surface 28 surrounds the periphery of the buffing roller section 12, and a clamping buffing area 29 is formed between the buffing inner wall surface 28 and the buffing roller section 12; the driving motor 21 is fixed on the outer wall 13 of the conveying channel 10, the first driving gear 23 is meshed with the driven gear 24, the driven gear 24 is a ring gear, and the side part of the driven gear 24 is connected to the connecting plate 25 and the driving plate 26; the two ends of the inner wall surface 28 of the grinding leather are provided with feeding section structures 31, and the feeding section structures 31 are funnel-shaped and gradually accommodated.

The working method of the high-flux rice processing device provided by the invention comprises the following steps:

s1: adding rice to be polished into the conveying channel 10, enabling the rice in the conveying channel 10 to be in a continuous moving state through the conveying auger 110, and forming a heating and drying state through an electric heating structure so as to dry the rice to be polished in the conveying channel 10;

s2: when the conveying auger 110 conveys the rice to be polished to the clamping and polishing area 29, the rice in conveying is clamped and polished through the polishing inner wall surface 28 of the internal rotary barrel 27 and the polishing roller section 12, so that the rice peel of the rice is gradually peeled; moreover, because the peeling roller sections 12 at a plurality of positions and the peeling inner wall surface 28 of the inner rotary barrel 27 are arranged, the rice to be peeled is subjected to peeling operation at a plurality of sections under the drive of the conveying auger 110, so that the peeling treatment operation is carried out for a plurality of times, and the effect of fully peeling is realized;

wherein, the rotation process of interior commentaries on classics bucket 27 drives actuating lever 22, first drive gear 23 through driving motor 21 in proper order and carries out work, and first drive gear 23 meshes and drives driven gear 24 and rotate, and driven gear 24 then correspondingly drives connecting plate and interior commentaries on classics bucket 27 and carries out circumferential motion.

Second embodiment:

the outside of the conveying channel 10 is provided with a sliding track 32, the inside of the driven gear 24 is provided with a sliding body 33, and the sliding body 33 is arranged in the sliding track 32 and can slide;

the working method comprises the following steps: when the driven gear 24 rotates in the circumferential direction, the sliding body 33 of the driven gear 24 moves along the sliding rail 32, thereby performing a guiding and positioning function.

The third embodiment:

the driving plate 26 is also provided with an auxiliary plate 34 at one side, and the auxiliary plate 34 is connected on the inner rotary barrel 27 through a bolt 35; the working method comprises the following steps: the inner rotary tub 27 can be fixedly coupled to the attachment plate 34 by the coupling relationship of the bolts 35 to reinforce the coupling fixation relationship.

The fourth embodiment:

the driven gear 24 has a notch portion 41, the driving rod 22 is connected with a second driving gear 43 through a timing belt 42, the diameter of the second driving gear 43 is larger than that of the first driving gear 23, and the second driving gear 43 is also used for meshing and driving the driven gear 24;

the working method comprises the following steps: when the notch part 41 rotates to the first driving gear 23, the first driving gear 23 loses driving effect, and at this time, the second driving gear 43 drives and rotates the driven gear 24, and the notch part 41 is of a semicircular structure, that is, the first driving gear 23 and the second driving gear 43 can alternately mesh and drive the driven gear 24, and due to the fact that the diameters of the first driving gear 23 and the second driving gear 43 are different, the driven gear 24 can further rotate at different rotating speeds, and the rice in the rice is subjected to skin grinding action alternately at different rotating speeds, and the rice generates certain vibration effect due to the change of the skin grinding speed, so that the skin grinding effect can be enhanced.

Fifth embodiment:

a feeding opening is formed in the upstream side of the conveying channel 10, a feeding hopper 51 is arranged above the feeding opening, and control valves are arranged at the positions of the feeding hopper 51 and the feeding opening;

the working method comprises the following steps: the rice to be polished is added into the feeding hopper 51, and the material in the feeding hopper 51 is discharged into the conveying channel 10 under the control action of the control valve.

Sixth embodiment:

the conveying channel 10 is erected on the fixing plate 61, and one end of the conveying auger 110 is connected with the auger motor 63 through the conveying chain 62; the working method comprises the following steps: the conveying auger 110 is driven by the auger motor 63 to work by the conveying chain 62.

Seventh embodiment:

as shown in fig. 5, the upper wall of the conveying channel 10 is provided with a rice husk outlet 71, the lower wall of the conveying channel 10 is provided with an air inlet 72, the rice husk outlet 71 is connected with a recycling box, and the air inlet 72 is connected with an air pump;

the working method comprises the following steps that through the working of the air pump, air flow enters the conveying channel 10 along the air inlet 72, and the air flow enables rice husks inside the conveying channel 10 to enter the recycling box along the rice husk outlet 71.

Eighth embodiment:

a receiving assembly is arranged at the downstream end of the conveying channel 10, the receiving assembly is provided with a conveying belt and a containing barrel, the containing barrel is arranged on the conveying belt, and the containing barrel is used for receiving rice below a downstream port 101 of the conveying channel 10;

the working method comprises the following steps: the rice of the downstream port 101 of the transfer passage 10 gradually falls into the containing bucket, the containing bucket loaded with the rice is moved downstream by the conveyor belt, and the other containing bucket is moved to below the downstream port by the conveyor belt to receive the rice.

Claims (5)

1. A high throughput rice processing apparatus, comprising:

the conveying channel is internally provided with an electric heating structure;

the conveying auger is arranged in the conveying channel and is provided with a plurality of auger sections and grinding roller sections which are arranged at intervals;

the buffing assembly is provided with a driving motor, a driving rod, a first driving gear, a driven gear, a connecting plate, a driving plate and an inner rotary barrel which are connected in sequence; the inner rotating barrel is of a hollow structure, the inner part of the inner rotating barrel is provided with a buffing inner wall surface, the buffing inner wall surface surrounds the periphery of the buffing roller section, and a clamping buffing area is formed between the buffing inner wall surface and the buffing roller section; the driving motor is fixed on the outer wall of the conveying channel, the first driving gear is meshed with the driven gear, the driven gear is a ring gear, and the side part of the driven gear is connected to the driving plate; the both ends of skin internal face have the pan feeding section structure, the pan feeding section structure has the hourglass shape that is the state of accomodating gradually.

2. The high-throughput rice processing apparatus according to claim 1, wherein the transportation path has a sliding rail at an outer portion thereof, and the driven gear has a sliding body at an inner side thereof, the sliding body being slidably provided in the sliding rail;

an auxiliary plate is arranged on one side of the driving plate and connected to the inner rotating barrel through a bolt;

the driven gear is provided with a notch part, the driving rod is connected with a second driving gear through a synchronous belt, the diameter of the second driving gear is larger than that of the first driving gear, and the second driving gear is also used for meshing and driving the driven gear; a feeding opening is formed in the upstream side of the conveying channel, a feeding hopper is arranged above the feeding opening, and control valves are arranged at the positions of the feeding hopper and the feeding opening;

the conveying channel is erected on the fixing plate, and one end of the conveying auger is connected with the auger motor through the conveying chain;

the upper wall of the conveying channel is provided with a rice husk outlet, the lower wall of the conveying channel is provided with an air inlet, the rice husk outlet is connected with a recycling box, and the air inlet is connected with an air pump.

3. High throughput rice processing apparatus according to claim 1,

the downstream end of conveying channel is provided with accepts the subassembly, it has the conveyer belt and holds the bucket to accept the subassembly, it sets up to hold the bucket on the conveyer belt, it is used for accepting and holds the rice of conveying channel downstream port below to hold the bucket.

4. The method for processing a high throughput rice processing apparatus as claimed in claim 1, comprising the steps of:

s1: adding rice to be polished into the conveying channel, enabling the rice in the conveying channel to be in a continuous moving state through the conveying auger, and forming a heating and drying state through the electric heating structure so as to dry the rice to be polished in the conveying channel;

s2: when the conveying auger conveys the rice to be polished to the clamping and polishing area, the rice in conveying is clamped and polished through the polishing inner wall surface of the internal rotating barrel and the polishing roller section, so that the rice peel of the rice is gradually peeled; because the peeling roller sections at a plurality of positions and the inner wall surface of the peeling of the internal rotating barrel are arranged, the rice to be peeled is subjected to peeling operation at a plurality of sections under the drive of the conveying auger, so that the peeling treatment operation is carried out for a plurality of times, and the effect of fully peeling is realized;

wherein, the rotation process of interior commentaries on classics bucket drives actuating lever, first drive gear through driving motor in proper order and carries out work, and first drive gear meshing drives driven gear and rotates, and driven gear then correspondingly drives interlock board and adversion bucket and carries out circumferential motion.

5. The method for processing a high throughput rice processing apparatus as claimed in claim 4, comprising the steps of: when the driven gear rotates in the circumferential direction, the sliding body of the driven gear moves along the sliding track, so that the guiding and positioning effects are achieved; through the connection relationship of the bolts, the inner rotary barrel can be fixedly connected on the auxiliary plate so as to strengthen the connection and fixation relationship;

when the notch part rotates to the first driving gear, the first driving gear loses the driving effect, the second driving gear drives the driven gear to rotate, the notch part is of a semicircular structure, namely the first driving gear and the second driving gear can alternately mesh and drive the driven gear, and the driven gear can rotate at different rotating speeds due to the fact that the diameters of the first driving gear and the second driving gear are different, the rice in the driven gear can be alternately ground at different rotating speeds, and the rice is subjected to certain vibration effect due to the change of the grinding speed, so that the grinding effect can be enhanced;

adding rice to be polished into a feeding hopper, and discharging the material in the feeding hopper into a conveying channel under the control action of a control valve; the conveying auger is driven by the auger motor to work by driving the conveying chain;

through the work of the air pump, airflow enters the conveying channel along the air inlet, and the airflow enables the rice husks in the conveying channel to enter the recycling box along the rice husk outlet;

the working method comprises the following steps: the rice of the downstream port of the conveying channel gradually falls into the containing barrel, the containing barrel which is full of rice is moved downstream through the conveying belt, and the other containing barrel is moved to the lower part of the downstream port through the conveying belt to receive the rice.

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