KR102343199B1 - Method and system for separating paddy - Google Patents

Abstract

The present invention relates to a system and method for separating brown rice, comprising: a brown rice machine that receives rice from a raw material supply unit and peels off the husk, a rice hull; Rice husk punggu for separating and discharging the peeled rice husks from the brown rice machine; a first brown rice separator provided to separate and discharge brown rice separated from rice hulls into genuine brown rice, intermediate products, and defective products through the rice hull fan; A second brown rice separator provided to separate and discharge the brown rice that has passed through the first brown rice separator into intermediate products and defective products; a fourth transfer for genuine brown rice separated and discharged from the first brown rice separator transfer to the post-process through means, feedback processing to the first brown rice separator through the second transfer means for the intermediate product, and transfer to the second brown rice separator for defective products through the third transfer means; A brown rice separation system configured to return intermediate products separated and discharged from the second brown rice separator to the first brown rice separator, and return defective products to the brown rice separator, and a brown rice separation method using the same.
According to the present invention, it is possible to improve the yield for the brown rice separation process, such as preventing the occurrence of salted rice in the brown rice processing unit, and to process into high-quality brown rice, as well as increase the production.

Description

Brown rice separation system and method {METHOD AND SYSTEM FOR SEPARATING PADDY}

The present invention relates to a system and method for separating brown rice, and more particularly, to improve the yield for the separation operation of brown rice, such as preventing the occurrence of salted rice, and to process it into high-quality brown rice, as well as to increase the production It relates to a system and method for separating brown rice.

In general, most of the rice grown and harvested at farms is brought into the Rice Processing Complex, and is processed and distributed by performing a milling operation for the production of brown or white rice through a milling treatment facility. .

That is, in the milling operation, it can be roughly divided into a brown rice processing unit for producing brown rice in which both the germ layer and aloe layer are preserved while removing the chaff from the rice, and a polished rice processing unit for producing white rice by peeling the rice bran from the brown rice. have.

At this time, the milling apparatus or facilities for producing brown rice and white rice are installed and used in the brown rice processing unit and the polished rice processing unit.

On the other hand, looking at the brown rice processing unit, most of the rice hulls are peeled off the rice husk, and the brown rice separation process is performed to separate the brown rice with the hulled state and the rice without the hulled state. In addition, processing is carried out to produce 100% genuine brown rice, including an intermediate return process.

In addition, in order to perform the hull peeling process and the brown rice separation process, a brown rice machine that peels the hull (chaff) of rice, and a brown rice separator that separates and sorts rice from which the hull (chaff) is not hulled and brown rice are installed and linked is using it.

However, in the case of processing brown rice by performing the hull peeling process, the brown rice separation process, and the intermediate return process by connecting the conventional brown rice machine and the brown rice separator, when sending the brown rice containing the rice discharged from the brown rice separator to the brown rice machine, ) phenomenon occurs, and the yield in the brown rice processing unit is lowered, and there is a problem that it is difficult to produce high-quality brown rice, so improvement is required.

In order to solve these conventional problems, a color sorter was introduced and used in the brown rice processing unit, but there were problems in that the lifespan was shortened due to dust, etc. and it was difficult to select a color. There was a problem in that economic feasibility was reduced and maintenance was difficult.

Republic of Korea Patent Publication No. 10-0307498 Republic of Korea Patent Publication No. 10-2016-0001555

The present invention has been devised in consideration of and solving the above-mentioned problems of the prior art, and it enables to improve the yield for the separation operation of brown rice, such as preventing the occurrence of pickled rice, and to process it into high-quality brown rice and to increase the production An object of the present invention is to provide a system and method for separating brown rice that can be increased.

The present invention utilizes a system linking a brown rice machine and a brown rice separator, but improves the system and the process using it, such as improving the intermediate return treatment method and the method of controlling the brown rice mixing ratio An object of the present invention is to provide a system and method for separating brown rice so that the yield in the study can be improved.

It is an object of the present invention to provide a system and method for separating brown rice that can increase the production yield as well as improve the yield according to the brown rice separation operation while increasing economic efficiency, efficiency, and facility operability in the brown rice processing unit.

The brown rice separation system according to the present invention for achieving the above object is a brown rice machine for a rice hull peeling process for peeling rice hulls from rice, and brown rice having a state in which the hulls are peeled through the brown rice machine and the rice hulls are not peeled. A brown rice separation system comprising a brown rice separator for a brown rice separation process for separating rice, comprising: a brown rice machine that receives rice from a raw material supply unit and peels off the husk, which is the husk; Rice husk punggu for separating and discharging the peeled rice husks from the brown rice machine; a first brown rice separator provided to separate and discharge genuine brown rice, intermediate products, and defective products in a state in which rice is mixed with the brown rice separated from the rice hull through the rice hull fan; Genuine products that have passed through the first brown rice separator and are separated and discharged from the first brown rice separator, including; The brown rice is transferred to the post-process through the fourth transfer means, the intermediate goods are fed back to the first brown rice separator through the second transfer means, and the defective goods are processed by the second brown rice separator through the third transfer means. transferred to; It is characterized in that the intermediate products separated and discharged from the second brown rice separator are returned to the first brown rice separator, and defective products are returned to the brown rice machine.

Here, the first brown rice separator is provided in a large size so as to be able to process a large amount for productivity, and the second brown rice separator is provided in a small capacity capable of processing in a small capacity for facility operability and economic feasibility as well as reducing its own weight, In the second brown rice separator, a proximity sensor or a touch sensor is installed in the lower outlet on the input hopper side, where defective products that are separated and sorted from the first brown rice separator are put, and the second brown rice separator is set according to the timer time when a detection signal is generated from the sensor through the timer setting. can be configured to operate automatically.

Here, on the lower outlet on the input hopper side of the second brown rice separator, the first input amount adjusting part and the second input amount adjusting part are arranged at intervals on the upper and lower sides to adjust the input amount of the defective product input into the input hopper and positioned in the opposite direction to each other. provided; The first input amount adjusting unit is configured to first adjust the input amount of defective products according to the depth inserted into the lower outlet by arranging the slide control plate horizontally; The second input amount adjusting unit includes a rotation control plate that can be rotated in the vertical direction in the lower outlet, and a push member for adjusting the rotation angle of the rotation control plate according to the depth inserted from the outside to the inside of the lower discharge port. It can be configured to secondary control the input amount of defective products.

Here, a first driving means for controlling the forward and backward movement is coupled to the slide control plate to the first input amount adjusting part, and a second driving means for controlling the forward and backward movement to the push member is coupled to the second input amount adjusting part. It can be configured for remote control.

Here, the genuine brown rice separated and selected in the first brown rice separator is 100% brown rice not mixed with rice, and is treated with 50% based on 100% of the total amount discharged from the first brown rice separator; The intermediate product separated and selected in the first brown rice separator is a state in which 95% brown rice and 5% rice are mixed, and is treated with 30% based on 100% of the total amount discharged from the first brown rice separator; The defective products separated and sorted in the first brown rice separator are 70% brown rice and 30% rice mixed, and can be treated in 20% amount based on 100% of the total amount discharged from the first brown rice separator.

Here, the intermediate product separated and selected in the second brown rice separator is a state in which 90% brown rice and 10% rice are mixed, and is treated with 60% based on 100% of the total amount discharged from the second brown rice separator; The defective products separated and sorted in the second brown rice separator are in a state in which 10% brown rice and 90% rice are mixed, and can be treated in 40% amount based on 100% of the total amount discharged from the second brown rice separator.

In addition, the brown rice separation method according to the present invention for achieving the above object is a brown rice machine for a rice hull peeling process for peeling rice husks from rice, and brown rice having a state in which the hulls are peeled through the brown rice machine and the rice hulls are not peeled In the brown rice separation method for processing using a brown rice separator for the brown rice separation process for separating the rice in a state, (A) a raw material supply step of supplying the raw material rice to the brown rice machine through a first transport means; (B) a rice hull peeling step of removing the rice husk, which is the shell of rice, in the brown rice stage; (C) a rice husk removal step of sending the hulled rice to the chaff wind tunnel and separating and discharging only the husk; (D) Brown rice with rice hulls removed is put into the first brown rice separator through the second transfer means, and separated and sorted into genuine brown rice, intermediate products, and defective products, but genuine brown rice is sent through the fourth transportation means. transferring the intermediate product to the first brown rice separator through the second conveying means, and transferring the defective product to the second brown rice separator through the third conveying means; (E) The defective products transferred to the second brown rice separator are separated and sorted again into intermediate products and defective products, and the intermediate products are returned to the first brown rice separator through the second transfer means, and defective products are transferred to the brown rice through the first transfer means. It is characterized in that it includes; transferring.

Here, the genuine brown rice separated and selected in the first brown rice separator is 100% brown rice not mixed with rice, and is treated in 50% amount based on 100% of the total amount discharged from the first brown rice separator, and separated in the first brown rice separator The intermediate product to be selected is 95% brown rice and 5% rice mixed, and it is processed in 30% amount based on 100% of the total amount discharged from the first brown rice separator. 30% of rice is mixed, and treated with 20% based on 100% of the total amount discharged from the first brown rice separator; The intermediate product to be separated and selected in the second brown rice separator is in a state in which 90% brown rice and 10% rice are mixed, and is treated at a 60% amount based on 100% of the total amount discharged from the second brown rice separator, and separated and selected in the second brown rice separator Defective products are 10% brown rice and 90% rice mixed, and can be treated at 40% based on 100% of the total amount discharged from the second brown rice separator.

Here, the first brown rice separator is provided in a large size so as to be able to process a large amount for productivity, and the second brown rice separator is provided in a small capacity capable of processing in a small capacity for facility operability and economic feasibility as well as reducing its own weight, In the second brown rice separator, a proximity sensor or a touch sensor is installed in the lower outlet on the input hopper side, where defective products that are separated and sorted from the first brown rice separator are put, and the second brown rice separator is set according to the timer time when a detection signal is generated from the sensor through the timer setting. It can be configured to perform step (E) by providing it to operate automatically.

Here, on the lower outlet on the input hopper side of the second brown rice separator, the first input amount adjusting part and the second input amount adjusting part are arranged at intervals on the upper and lower sides to adjust the input amount of the defective product input into the input hopper and positioned in the opposite direction to each other. provided; The first input amount adjusting unit is configured to first adjust the input amount of defective products according to the depth inserted into the lower outlet by enabling the slide control plate to move forward and backward through horizontal arrangement and cylinder coupling; The second input amount adjusting unit includes a rotation control plate that can be rotated in the vertical direction in the lower outlet, and a push member for adjusting the rotation angle of the rotation control plate according to the depth inserted from the outside to the inside of the lower outlet, and a push member. It can be configured to include a driving means for driving forward and backward movement to secondaryly control the input amount of defective products.

According to the present invention, it is possible to improve the yield for the brown rice separation operation, such as preventing the occurrence of pickled rice in the brown rice processing unit, and to achieve the usefulness of processing into high-quality brown rice as well as increasing the production. can

According to the present invention, by improving the system and process, such as using a system linking a brown rice machine and a brown rice separator, but improving the intermediate return treatment method and the method of controlling the brown rice mixing ratio, the occurrence of salted rice is prevented and the brown rice processing unit It is possible to achieve the usefulness of improving the yield in

According to the present invention, it is possible to increase economic efficiency, efficiency, and facility operability in the brown rice processing unit, and to easily perform the brown rice separation operation without system-side overload, and to improve the yield according to the brown rice separation operation as well as increase the production. usefulness can be achieved.

1 is a configuration diagram illustrating a system for separating brown rice according to an embodiment of the present invention.
2 is a view showing a second brown rice separator in the brown rice separation system according to an embodiment of the present invention.
3 is a process flow diagram illustrating a method for separating brown rice according to an embodiment of the present invention.

Preferred embodiments of the present invention will be described with reference to the accompanying drawings as follows, and through such detailed description, it will be possible to better understand the purpose and configuration of the present invention and its features.

The system for separating brown rice according to an embodiment of the present invention basically includes a rice hull peeling process of peeling rice husks from rice, and brown rice having a state in which the hulls are peeled from the result of the hull peeling process and rice in a state in which the hulls are not hulled. Provided is a system for performing a microseparation process for separating.

Specifically, as shown in FIGS. 1 and 2, the brown rice separation system according to an embodiment of the present invention includes a brown rice machine 30 for removing rice husk, which is a shell, by receiving rice from a raw material supply unit, and the brown rice machine 30 ) for separating and discharging the peeled rice hull from the rice hull fan 40, and passing through the rice hull fan 40 and separating the rice hull from the brown rice in a mixed state, it is separated into genuine brown rice and intermediate products and defective products. The first brown rice separator 70 is provided to sort and discharge, and the second brown rice that has passed through the first brown rice separator 70 is separated and sorted again into intermediate and defective products for the mixed brown rice. It consists of a configuration including the microscopic separator (100).

The first brown rice separator 70 is configured to have three outlets to separate and discharge brown rice in a mixed state into genuine brown rice, intermediate products, and defective products.

The first brown rice separator 70 is a configuration having a separator on the main body, and when processing a capacity of about 4 tons, a three-stage separator can be applied, and when processing a capacity of about 6 tons, a five-stage separator can be applied. and may be provided by adjusting the number of separators according to the desired capacity treatment.

The second brown rice separator 100 is configured to have two outlets to separate and discharge defective products separated and discharged from the first brown rice separator 70 into intermediate products and defective products again.

At this time, the second brown rice separator 100 is installed at a higher position than the brown rice machine 30 and the first brown rice separator 70, so that the transport and supply using natural fall for the object is smoothly performed, and transport means such as a bucket elevator It can be configured to pursue facility operability and efficiency as well as economic feasibility, such as not having to install additional equipment.

Here, the first transfer means 10 is installed and used in the process of supplying the raw material to the brown rice machine 30 , and the brown rice in a state in which the rice discharged from the rice hull tuyere 40 is mixed is mixed with the first brown rice separator. The second transfer means 50 is installed and used in the process of transferring to (70), and the third transfer means (80) is used in the process of transferring defective products from the first brown rice separator 70 to the second brown rice separator 100. ), and the fourth transfer means 1 may be installed and used in the process of transferring genuine brown rice (100% brown rice) separated and discharged from the first brown rice separator 70 to a post-process.

A bucket elevator or a transfer screw may be used as the first transfer means to the fourth transfer means.

Here, the brown rice machine 30, the first brown rice separator 70, and the second brown rice separator 100 are installed on each upper side to control the flow of transfer, such as to temporarily store rice or brown rice, which is a transfer object, without a load. The storage tanks 20, 60, and 90 may be installed and used so that the brown rice separation operation can be performed more smoothly.

Here, the storage tanks 20, 60, and 90 are components that are not essential installation conditions, and are input hoppers into the brown rice machine 30, the first brown rice separator 70, and the second brown rice separator 100 itself. Since it is a configuration with

The first brown rice separator 70 is provided in a large size to enable large-capacity processing for productivity, and the second brown rice separator 100 is provided in a small size capable of handling small volumes for facility operability and economic feasibility as well as reducing its own weight. This is preferable.

Here, the second brown rice separator 100 is a configuration that does not require large-capacity processing in terms of functionality.

Here, the second brown rice separator 100 includes an input hopper 110 that receives brown rice mixed with rice, and a brown rice separation for separating and sorting the mixed brown rice discharged from the input hopper 110 from rice. and a body 120 .

In the second brown rice separator 100, a detection sensor 130 such as a proximity sensor or a touch sensor is installed in the lower outlet on the input hopper side, into which defective products that are separated from the first brown rice separator 70 and transported are put, and a timer is set. Through this, when a detection signal is generated from the detection sensor 130, the second brown rice separator 100 may be configured to automatically operate according to a set timer time.

The second brown rice separator 100 has a first input amount adjusting unit and a first input amount adjusting unit positioned on the upper and lower sides to adjust the input amount of defective products that are put into the input hopper on the lower outlet on the input hopper 110 side and positioned in the opposite direction to each other. 2 It may be provided with an input amount control unit.

The first input amount adjusting unit may be configured to first adjust the input amount of defective products according to the depth inserted into the lower outlet of the input hopper by horizontally disposing the slide control plate 140 .

The second input amount adjusting unit is provided with a rotation control plate 150 capable of rotating in the vertical direction in the lower outlet of the input hopper, and the rotation of the rotation control plate 150 is provided along the depth inserted from the outside to the inside of the lower outlet. By providing the push member 160 for adjusting the angle, it can be configured to secondarily control the input amount of defective products.

In addition, a first driving means for controlling forward and backward movement is coupled to the slide control plate 140 to the first input amount adjusting unit, and a second input amount adjusting unit for controlling the forward and backward movement to the push member 160 is connected to the second input amount adjusting unit. By combining the driving means, it can be configured to enable remote control and automatic control.

In the mixed brown rice, which is transferred to the first brown rice separator 70 via the brown rice machine 30 and the rice hull fan 40, on average 85% brown rice and 15% rice are mixed among 100% of the total amount. .

In the first brown rice separator 70, the function of separating and discharging genuine brown rice, intermediate products, and defective products is performed. The second transfer means 50 is fed back to the first brown rice separator 70 for a return process, and defective products are transferred to the second brown rice separator 100 through the third transfer means 80 .

Here, the genuine brown rice separated and selected through the first brown rice separator 70 is 100% brown rice that is not mixed with rice, and 50% based on 100% of the total amount of objects separated and sorted by the first brown rice separator 70 treated as a percentage.

Here, the intermediate product separated and selected through the first brown rice separator 70 is a state in which 95% brown rice and 5% rice are mixed, and 100% of the total amount of objects separated and discharged by the first brown rice separator 70 and treated at 30%.

Here, the defective products separated and sorted through the first brown rice separator 70 are 70% brown rice and 30% rice mixed, and 100% of the total amount of objects separated and discharged by the first brown rice separator 70 and treated at 20%.

And, in the second brown rice separator 100, based on 100% of the total amount of the object transferred from the first brown rice separator 70, 20% of defective products are separated into intermediate products and defective products and discharged. , return processing to the first brown rice separator 70 for intermediate products, and return processing to the rice mill 30 for defective products.

Here, the intermediate product separated and selected through the second brown rice separator 100 is a state in which 90% brown rice and 10% rice are mixed, and 60% based on 100% of the total amount of the object discharged from the second brown rice separator 100 processed in portions.

Here, the defective products separated and selected through the second brown rice separator 100 are in a state in which 10% brown rice and 90% rice are mixed, and 40% based on 100% of the total amount of the object discharged from the second brown rice separator 100 processed in portions.

On the other hand, the method for separating brown rice according to an embodiment of the present invention is a process performed by utilizing a system for separating brown rice having the above-described configuration and action, and will be described with reference to FIGS. 1 to 3 .

Here, the brown rice separation system will apply the above-described configuration described with reference to FIGS. 1 and 2 mutatis mutandis, and a detailed description of the system will be omitted.

Specifically, the method for separating brown rice according to an embodiment of the present invention includes a raw material supply step (S10), a rice hull peeling step (S20), a rice husk removal step (S30), a first brown rice separation step (S40), and a second brown rice separation step (50) consists of a configuration including.

The raw material supply step (S10) is a step of supplying the raw material rice to the rice mill 30 through the first transport means (10).

The rice hull peeling step (S20) is a step of peeling off the rice husk, which is the husk of rice, in the brown rice machine (30).

The rice hull removal step (S30) is a step of sending the hulled rice to the rice hull punggu (40) to separate and remove only the husk, and discharging the brown rice from which the husk has been removed.

At this time, the brown rice from which the rice hull has been removed is a mixed state of rice, and 85% of brown rice and 15% of rice are mixed on average among 100% of the total amount.

In the first brown rice separation step (S40), brown rice mixed with rice from which the rice husk has been removed is introduced into the first brown rice separator 70 through the second transport means 50, and is separated into genuine brown rice, intermediate products, and defective products. This is the selection step.

Here, the genuine brown rice discharged from the first brown rice separator 70 is transferred to a post-process through the fourth transfer means 1 (S41).

Genuine brown rice separated and selected in the first brown rice separator 70 is 100% brown rice that is not mixed with rice, and is treated with 50% of the total amount separated and selected through the first brown rice separator 70 100%. .

Here, the intermediate product discharged from the first brown rice separator 70 is fed back to the first brown rice separator 70 through the second transfer means 50 for return processing (S42).

The intermediate product separated and selected in the first brown rice separator 70 is a state in which 95% brown rice and 5% rice are mixed, and 30% based on 100% of the total amount separated and sorted through the first brown rice separator 70 handle

Here, the defective products discharged from the first brown rice separator 70 are transferred to the second brown rice separator 100 through the third transfer means 80 .

The defective products separated and sorted by the first brown rice separator 70 are 70% brown rice and 30% rice mixed, and 20% based on 100% of the total amount separated and discharged through the first brown rice separator 70 handle

The second brown rice separation step (S50) is a step of re-separating and sorting the defective products transferred to the second brown rice separator 100 from among the objects separated and selected through the first brown rice separation step S40 into intermediate products and defective products.

At this time, in the second brown rice separator 100 , when defective products that are separated and transported from the first brown rice separator 70 are put into the input hopper 110 , a proximity sensor installed in the lower outlet on the input hopper 110 side or The input of the object is sensed from the detection sensor 130 such as a touch sensor, and after a signal is generated from the detection sensor 130, it is automatically operated according to the set timer time, and the second brown rice separation step (S50) is performed. .

In addition, the second brown rice separator 100 may be used while adjusting the input amount of defective products through the first input amount adjusting unit and the second input amount adjusting unit.

Here, the intermediate product discharged from the second brown rice separator 100 is returned to the first brown rice separator 70 (S51).

The intermediate product separated and selected in the second brown rice separator 100 is a state in which 90% brown rice and 10% rice are mixed. handle

Here, the defective products discharged from the second brown rice separator 100 are transferred to the rice mill 30 (S52).

The defective products separated and sorted by the second brown rice separator 100 are in a state in which 10% brown rice and 90% rice are mixed, and 40% based on 100% of the total amount separated and sorted through the second brown rice separator 100 handle

The embodiments described above are merely illustrative of preferred embodiments of the present invention, and are not limited to these embodiments, and various modifications and variations or modifications by those skilled in the art within the spirit and claims of the present invention It will be said that the substitution of steps may be made, and this will be said to be within the scope of the technical rights of the present invention.

30: brown rice 40: rice husk
70: first brown rice separator 100: second brown rice separator
110: input hopper 120: brown rice separation body
130: detection sensor

Claims (10)

A brown rice separator comprising a brown rice machine for a rice hull peeling process for peeling the rice hull from the rice, and a brown rice separator for a brown rice separation process for separating brown rice having a state in which the hull is hulled through the brown rice machine and rice in a state in which the hull is not hulled In the system,
Brown rice-gi, which receives rice from the raw material supply unit and peels off the husk, which is the husk;
Rice husk punggu for separating and discharging the peeled rice husks from the brown rice machine;
a first brown rice separator provided to separate and discharge genuine brown rice, intermediate products, and defective products in a state in which rice is mixed with the brown rice separated from the rice hull through the rice hull fan;
a second brown rice separator provided to separate and discharge brown rice in a mixed state with the rice passing through the first brown rice separator into intermediate products and defective products; including,
Genuine brown rice separated and discharged from the first brown rice separator is transferred to the post-process through the fourth transfer means, and the intermediate product is fed back to the first brown rice separator through the second transfer means for return processing, and defective products transferred to the second brown rice separator through the third transfer means;
configured to return intermediate products separated and discharged from the second brown rice separator to the first brown rice separator, and return defective products to the brown rice machine;
The first brown rice separator is provided in a large size to enable large-capacity processing for productivity, and the second brown rice separator is provided in a small capacity capable of processing small capacity for facility operability and economic feasibility while reducing its own weight;
In the second brown rice separator, a proximity sensor or a touch sensor is installed in the lower outlet on the input hopper side where defective products separated and sorted from the first brown rice separator are put, and a second time according to the timer time set when a detection signal is generated from the sensor through timer setting. The rice separator is configured to operate automatically;
Genuine brown rice separated and selected in the first brown rice separator is 100% brown rice not mixed with rice, and is treated with 50% based on 100% of the total amount discharged from the first brown rice separator;
The intermediate product separated and selected in the first brown rice separator is a state in which 95% brown rice and 5% rice are mixed, and is treated with 30% based on 100% of the total amount discharged from the first brown rice separator;
The defective product separated and selected in the first brown rice separator is a state in which 70% brown rice and 30% rice are mixed, and the brown rice separation system, characterized in that it is processed in 20% based on 100% of the total amount discharged from the first brown rice separator. delete The method of claim 1,
On the lower outlet of the input hopper side of the second brown rice separator, a first input amount adjusting part and a second input amount adjusting part are provided, arranged at intervals on the upper and lower sides and positioned in opposite directions to control the input amount of defective products fed into the input hopper;
The first input amount adjusting unit is configured to first adjust the input amount of defective products according to the depth inserted into the lower outlet by arranging the slide control plate horizontally;
The second input amount adjusting unit includes a rotation control plate that can be rotated in the vertical direction in the lower outlet, and a push member for adjusting the rotation angle of the rotation control plate according to the depth inserted from the outside to the inside of the lower discharge port. Brown rice separation system, characterized in that configured to secondary control the input amount of defective products. 4. The method of claim 3,
A first driving means for controlling the forward and backward movement is coupled to the slide control plate to the first input amount adjusting unit,
Brown rice separation system, characterized in that the second input amount adjusting unit is configured to be remotely controllable by coupling a second driving means for controlling the forward and backward movement to the push member. delete The method of claim 1,
The intermediate product separated and selected by the second brown rice separator is a state in which 90% brown rice and 10% rice are mixed, and is treated with 60% based on 100% of the total amount discharged from the second brown rice separator;
The second brown rice separation system, characterized in that the defective products separated and sorted in the second brown rice separator are in a state of 10% brown rice mixed with 90% rice, and treated in 40% amount based on 100% of the total amount discharged from the second brown rice separator. A brown rice machine for the hull peeling process of removing the husk from the rice, and a brown rice separator for the brown rice separation process that separates the brown rice having the hulled state through the brown rice machine and the rice in the unhulled state In the method for separating brown rice,
(A) a raw material supply step of supplying the raw material rice to the brown rice machine through the first transfer means;
(B) a rice hull peeling step of removing the rice husk, which is the shell of rice, in the brown rice stage;
(C) a rice husk removal step of sending the hulled rice to the chaff wind tunnel and separating and discharging only the husk;
(D) Brown rice with rice hulls removed is put into the first brown rice separator through the second transfer means, and separated and sorted into genuine brown rice, intermediate products, and defective products, but genuine brown rice is sent through the fourth transportation means. transferring the intermediate product to the first brown rice separator through the second conveying means, and transferring the defective product to the second brown rice separator through the third conveying means;
(E) The defective products transferred to the second brown rice separator are separated and sorted again into intermediate products and defective products, and the intermediate products are returned to the first brown rice separator through the second transfer means, and defective products are transferred to the brown rice through the first transfer means. transferring; includes,
The first brown rice separator is provided in a large size to enable large-capacity processing for productivity, and the second brown rice separator is provided in a small capacity capable of processing small capacity for facility operability and economic feasibility while reducing its own weight;
In the second brown rice separator, a proximity sensor or a touch sensor is installed in the lower outlet on the input hopper side where defective products separated and sorted from the first brown rice separator are put, and a second time according to the timer time set when a detection signal is generated from the sensor through timer setting. to perform step (E) by having the rice separator to operate automatically;
Genuine brown rice separated and selected in the first brown rice separator is 100% non-mixed brown rice, treated in 50% amount based on 100% of the total amount discharged from the first brown rice separator, and the middle separated and selected in the first brown rice separator As for the product, 95% brown rice and 5% rice are mixed, and 30% of the total amount discharged from the first brown rice separator is treated as 30%, and the defective products separated and sorted in the first brown rice separator are 70% brown rice and 30 rice % As a mixed state, it is treated in an amount of 20% based on 100% of the total amount discharged from the first brown rice separator;
The intermediate product to be separated and selected in the second brown rice separator is in a state in which 90% brown rice and 10% rice are mixed, and is treated at a 60% amount based on 100% of the total amount discharged from the second brown rice separator, and separated and selected in the second brown rice separator Defective products are 10% brown rice and 90% rice mixed. A method of separating brown rice, characterized in that it is processed in 40% amount based on 100% of the total amount discharged from the second brown rice separator. delete delete 8. The method of claim 7,
On the lower outlet of the input hopper side of the second brown rice separator, a first input amount adjusting part and a second input amount adjusting part are provided, arranged at intervals on the upper and lower sides and positioned in opposite directions to control the input amount of defective products fed into the input hopper;
The first input amount adjusting unit is configured to first adjust the input amount of defective products according to the depth inserted into the lower outlet by enabling the slide control plate to move forward and backward through horizontal arrangement and cylinder coupling;
The second input amount adjusting unit includes a rotation control plate that can be rotated in the vertical direction in the lower outlet, and a push member for adjusting the rotation angle of the rotation control plate according to the depth inserted from the outside to the inside of the lower outlet, and a push member. Brown rice separation method comprising a driving means for driving forward and backward movement, characterized in that it is configured to secondary control the input amount of defective products.

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