KR101189600B1 - Automatic paddy and ingredient analyzer examiner - Google Patents

Abstract

PURPOSE: An automatic examiner for rice quality proteins is provided to measure sample quality and protein content and to quantitatively supply a sample. CONSTITUTION: An automatic examiner for rice quality protein comprises: a cabinet(100) with an automatic rice quality examining device(200) and a component analyzer(300); a hopper(500) for supplying a sample by a bucket elevator(400) when the quality of the sample is determined; a input pipe(P1) placed between the hopper and component analyzer; a quantitative supply pipe(P2) placed at the lower end of the input pipe; a first opening and closing plate(315) of a primary damper(310) between the input pipe and quantitative supply pipe; a second opening and closing plate(335) of a secondary damper(330); and a third opening and closing plate(345) of the tertiary damper(340) at the lower end of a sample tank.

Description

Rice grade protein automatic determination machine {AUTOMATIC PADDY AND INGREDIENT ANALYZER EXAMINER}

The present invention in conjunction with the "rice grade automatic determination device" of the Republic of Korea Patent No. 10-173557 and the "grain component content measuring device" of Republic of Korea Patent No. 10-0921914, can determine the quality and protein content of the rice in a batch It relates to a rice grade automatic protein detector, and more particularly, it is linked with a rice grade automatic detector and a component analyzer for measuring protein content of grains, and can automatically determine protein quality as well as sample quality. The present invention relates to a rice protein automatic determiner capable of supplying a sample quantitatively and using only a component analyzer independently of a rice grade automatic determiner.

Korean Rice Patent No. 10-173557 (registered on October 30, 1998) introduces an "automatic rice determinator" and Korean Patent No. 10-0921914 (registered on October 8, 2009) for "grains". Component content measuring device and its measuring method "are introduced.

However, the rice grade automatic determiner and the grain content measuring device are independent of each other, using a rice grade automatic determiner to measure the quality of the rice, the sample of the rice measuring the quality of the grain to determine the grain content measuring device Since the protein of the rice sample was measured using this, there was a troublesome disadvantage.

Therefore, an object of the present invention is linked to the automatic determination of rice quality and the component analyzer that can measure the protein content of grain, it is possible to automatically determine the protein content as well as the quality of the sample, it is possible to supply the sample to the component analyzer quantitatively It is possible to provide a rice protein automatic determiner which can be used independently of a component analyzer.

In order to achieve the above object, the automatic determination of rice grade protein according to the present invention is provided with an automatic rice determination unit and a component analyzer for measuring the protein content of the sample in the cabinet, and if the quality of the sample is determined in the automatic rice determination unit The sample is supplied to the hopper by a bucket elevator, an input tube is disposed between the hopper and the component analyzer, a quantitative supply tube is disposed at the bottom of the input tube, and a component analyzer is disposed below the quantitative supply tube. The first opening and closing plate of the primary damper is disposed between the supply pipe, the second opening and closing plate of the secondary damper is disposed between the fixed quantity supply pipe and the sample container of the component analyzer, and the third opening and closing plate of the third damper is disposed at the bottom of the sample container of the component analyzer. It is characterized in that the arrangement.

When the solenoid is turned on, the primary damper opens the first opening / closing plate between the input tube and the metering supply tube, so that a sample of the input tube is supplied to the metering supply tube. When the solenoid is turned off, the first damper is opened by the restoring force of the spring. The plate is in the original position, characterized in that the first opening and closing plate closes between the input pipe and the fixed-quantity supply pipe.

When the solenoid is turned on, the secondary damper opens the second opening and closing plate between the metering supply tube and the sample analyzer sample tube, so that the sample of the metering supply tube is supplied to the sample analyzer sample tube, and when the solenoid is turned off, the spring The second opening and closing plate is returned to its original position by the restoring force, so that the second opening and closing plate is blocked between the fixed quantity supply pipe and the sample container.

When the solenoid is turned on, the third damper opens the lower end of the sample container of the component analyzer so that the sample of the sample container is discharged to the discharge container. When the solenoid is turned off, the third damper is opened by the restoring force of the spring. As the plate is in the original position, the third opening and closing plate blocks the lower end of the sample container of the component analyzer.

The component analyzer can slide in and out of the sample container through a hole formed in the case, manually select the manual / auto selection switch of the operation panel installed in the case, and then put the sample in the sample container and adjust the protein content of the sample. It can be measured.

As a result, the rice grade protein automatic determiner according to the present invention is linked to the rice grade automatic determiner and a component analyzer capable of measuring the protein content of the grain, and can automatically determine the protein content as well as the grade of the sample, The analyzer can supply the sample quantitatively, and it is effective to use only the component analyzer independently regardless of an automatic rice judge.

1 is a block diagram showing an automatic rice determinant protein determination device according to the invention according to the present invention
FIG. 2 is an enlarged detail view of the component analyzer of FIG. 1. FIG.
3 is a perspective view of a component analyzer according to the present invention;

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the drawings.

Referring to Figures 1 and 2, the automatic determination of rice grade protein according to the present invention is arranged in the cabinet 100, the rice grade automatic determiner 200 and the component analyzer 300 for measuring the protein content of the sample, rice When the grade of the sample is determined by the automatic grader 200, the sample is supplied to the hopper 500 by the bucket elevator 400, and an injection pipe P1 is disposed between the hopper 500 and the component analyzer 300. Is disposed, the lower end of the input pipe (P1) is disposed in the fixed amount supply pipe (P2), the component analyzer 300 is disposed in the lower portion of the fixed amount supply pipe (P2), between the input pipe (P1) and the fixed amount supply pipe (P2) The first opening and closing plate 315 of the primary damper 310 is disposed, and the second opening and closing plate 335 of the secondary damper 330 between the fixed quantity supply pipe P2 and the sample container 320 of the component analyzer 300. ) Is disposed, and the third opening and closing plate 345 of the tertiary damper 340 is disposed at the lower end of the sample container 320 of the component analyzer 300.

The rice grade automatic determiner 200 is already known in Korea Patent No. 10-173557 (name of the invention; rice grade automatic determiner), a detailed description thereof will be omitted.

The component analyzer 300 is a device for measuring the protein content by measuring the components of the sample grains using a spectrometer, Korean Patent No. 10-0921914 (name of the invention; grain component content measuring device and measuring method thereof) Introduced in detail, detailed description thereof will be omitted.

When the solenoid (not shown) is turned on, the primary damper 310 opens the first opening / closing plate 315 between the input pipe P1 and the metering supply pipe P2, thereby providing a sample of the input pipe P1. Is supplied to the fixed-quantity supply pipe (P2), when the solenoid is turned off, the first opening and closing plate 315 is returned to its original position by the restoring force of the spring (not shown), so that the first opening and closing plate 315 is the input pipe (P1) And between the metering supply pipe (P2).

When the solenoid (not shown) is turned on, the secondary damper 330 opens the second opening and closing plate 335 between the fixed quantity supply pipe P2 and the sample container 320 of the component analyzer 300. When the sample of the fixed quantity supply pipe P2 is supplied to the sample container 320 of the component analyzer 300, and the solenoid is turned off, the second opening and closing plate 335 is returned to its original position by the restoring force of the spring (not shown). , The second opening and closing plate 335 is to block between the fixed quantity supply pipe (P2) and the sample container (320).

When the solenoid (not shown) is turned on in the tertiary damper 340, the third opening and closing plate 345 opens the lower end of the sample container 320 of the component analyzer 300, thereby allowing the sample container 320 to be opened. Of the sample is discharged to the discharge container 350, when the solenoid is turned off, the third opening and closing plate 345 is returned to its original position by the restoring force of the spring (not shown), so that the third opening and closing plate 345 is a component analyzer ( The lower end of the sample container 320 of 300).

In the rice grade protein automatic determiner according to the present invention configured as described above, the sample whose quality is determined by the rice grade automatic determiner 200 is supplied to the hopper 500 of the component analyzer 300 by the bucket elevator 400. In addition, when the sample is supplied to the hopper 500, the primary damper 310 is in a closed state.

The sample is supplied from the hopper 500 to the input pipe P1, and the second opening and closing plate 335 of the secondary damper 330 blocks the lower end of the fixed quantity supply pipe P2. When the first opening and closing plate 315 is opened, the sample of the input pipe (P1) is supplied to the fixed amount supply pipe (P2), when the sample supply is completed to the fixed amount supply pipe (P2), the first opening and closing of the primary damper (310) The plate 315 is closed, and the second opening and closing plate 335 of the secondary damper 330 is opened in the state where the third opening and closing plate 345 of the tertiary damper 340 is closed to open the fixed quantity supply pipe P2. The sample is supplied to the sample container 320. As a result, the sample is quantitatively supplied to the sample container 320 by the amount filled in the metering supply pipe P2.

When the supply of the sample to the sample container 320 is completed, the second opening and closing plate 335 of the secondary damper 330 is closed, and the component analyzer 300 measures the sample of the sample container 320 in a light spectral manner. The component content of the sample (particularly, the protein content of the sample) is analyzed.

When the protein content analysis of the sample is completed, the third opening and closing plate 345 of the tertiary damper 340 is opened, and the sample of the sample container 320 is discharged to the discharge container 350.

As described above, the automatic rice grade protein determiner according to the present invention automatically determines the grade of the sample by the rice grade automatic determiner 200, and the sample is transferred to the sample container 320 of the component analyzer 300 by the damper. Since it is quantitatively supplied, the component analyzer 300 may automatically determine the protein content of the sample.

Referring to FIG. 3, further, the component analyzer 300 according to the present invention may slide the sample container 320 in a sliding manner through a hole 361 formed in the case 360, and may be removed from the case 360. After manually selecting the manual / auto selection switch 371 of the installed operation panel 370, the sample is placed in the sample container 320, and the protein content of the sample can be measured.

As described above, the component analyzer according to the present invention automatically selects the manual / auto selection switch 371 of the operation panel 370, and can be used together with the automatic rice determinator 200, as well as the operation panel 370. After manually selecting the manual / automatic selection switch 371 of), it can be used independently of the automatic deciding machine 200.

100: cabinet 200: automatic rice judge
300: component analyzer 310, 330, 340: damper
320: sample container 400: bucket elevator
500: Hopper

Claims (5)

In the cabinet 100, the automatic rice judge 200 and the component analyzer 300 for measuring the protein content of the sample is arranged, and if the quality of the sample is determined in the automatic rice judge 200, the sample is a bucket elevator Is supplied to the hopper 500 by the 400, the input pipe (P1) is disposed between the hopper 500 and the component analyzer 300, the fixed-quantity supply pipe (P2) is disposed at the lower end of the input pipe (P1) , Component analyzer 300 is disposed below the metering supply pipe (P2), the first opening and closing plate 315 of the primary damper 310 is disposed between the input pipe (P1) and the metering supply pipe (P2), A second opening / closing plate 335 of the secondary damper 330 is disposed between the supply pipe P2 and the sample container 320 of the component analyzer 300. The third opening and closing plate 345 of the car damper 340 is disposed,
When the solenoid is turned on, the primary damper 310 opens the first opening / closing plate 315 between the inlet pipe P1 and the metering supply pipe P2, so that the sample of the inlet pipe P1 is fixed in the metering supply pipe P2. When the solenoid is turned off, the first opening and closing plate 315 is returned to its original position by the restoring force of the spring, so that the first opening and closing plate 315 closes between the input pipe P1 and the fixed quantity supply pipe P2. Rice quality protein automatic determiner, characterized in that.
delete In the cabinet 100, the automatic rice judge 200 and the component analyzer 300 for measuring the protein content of the sample is arranged, and if the quality of the sample is determined in the automatic rice judge 200, the sample is a bucket elevator Is supplied to the hopper 500 by the 400, the input pipe (P1) is disposed between the hopper 500 and the component analyzer 300, the fixed-quantity supply pipe (P2) is disposed at the lower end of the input pipe (P1) , Component analyzer 300 is disposed below the metering supply pipe (P2), the first opening and closing plate 315 of the primary damper 310 is disposed between the input pipe (P1) and the metering supply pipe (P2), A second opening / closing plate 335 of the secondary damper 330 is disposed between the supply pipe P2 and the sample container 320 of the component analyzer 300. The third opening and closing plate 345 of the car damper 340 is disposed,
When the solenoid is turned on, the secondary damper 330 opens the second opening / closing plate 335 between the metering supply pipe P2 and the sample container 320 of the component analyzer 300, thereby When the sample is supplied to the sample container 320 of the component analyzer 300 and the solenoid is turned off, the second opening and closing plate 335 is returned to its original position by the restoring force of the spring, so that the second opening and closing plate 335 is a fixed quantity supply pipe ( P2) and the rice product automatic determiner, characterized in that the blocking between the sample container (320).
In the cabinet 100, the automatic rice judge 200 and the component analyzer 300 for measuring the protein content of the sample is arranged, and if the quality of the sample is determined in the automatic rice judge 200, the sample is a bucket elevator Is supplied to the hopper 500 by the 400, the input pipe (P1) is disposed between the hopper 500 and the component analyzer 300, the fixed-quantity supply pipe (P2) is disposed at the lower end of the input pipe (P1) , Component analyzer 300 is disposed below the metering supply pipe (P2), the first opening and closing plate 315 of the primary damper 310 is disposed between the input pipe (P1) and the metering supply pipe (P2), A second opening / closing plate 335 of the secondary damper 330 is disposed between the supply pipe P2 and the sample container 320 of the component analyzer 300. The third opening and closing plate 345 of the car damper 340 is disposed,
When the solenoid is turned on, the third damper 340 opens the lower end of the sample container 320 of the component analyzer 300 so that the sample of the sample container 320 is discharged to the discharge container 350. When the solenoid is turned off, the third opening and closing plate 345 is returned to its original position by the restoring force of the spring, so that the third opening and closing plate 345 blocks the lower end of the sample container 320 of the component analyzer 300. Rice quality protein automatic determiner, characterized in that.
In the cabinet 100, the automatic rice judge 200 and the component analyzer 300 for measuring the protein content of the sample is arranged, and if the quality of the sample is determined in the automatic rice judge 200, the sample is a bucket elevator Is supplied to the hopper 500 by the 400, the input pipe (P1) is disposed between the hopper 500 and the component analyzer 300, the fixed-quantity supply pipe (P2) is disposed at the lower end of the input pipe (P1) , Component analyzer 300 is disposed below the metering supply pipe (P2), the first opening and closing plate 315 of the primary damper 310 is disposed between the input pipe (P1) and the metering supply pipe (P2), A second opening / closing plate 335 of the secondary damper 330 is disposed between the supply pipe P2 and the sample container 320 of the component analyzer 300. The third opening and closing plate 345 of the car damper 340 is disposed,
The component analyzer 300 may slide the sample container 320 in a sliding manner through a hole 361 formed in the case 360, and may be a manual / automatic selection switch of the operation panel 370 installed in the case 360. After manually selecting (371), the sample is put into the sample container 320, the rice protein automatic determiner, characterized in that the protein content of the sample can be measured.

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