JPS60187344A - Controller of rotary type grain sorter attached to hulling apparatus - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to an adjustment device for a rotary grain sorting device attached to a hulling device.

Conventionally, some rice hulling devices are equipped with a mixed rice sorting device using a rotary set. This grain sorting device supplies a mixed rice mixture into a rotary cylinder with countless potholes formed on its inner surface, rotates it, and pulls the lower layer of finished rice (brown rice) through the potholes.
It is a mechanism to take out the finished rice into a receiving trough installed in the rotating cylinder.

In order for this grain sorting device to successfully sort mixed rice of different types, it is necessary that the grains in the rotary cylinder be in a state where there is no excess or deficiency.

If there is a significant amount of stagnation, the amount of brown rice to be scooped into the finished rice catcher is small, so you can increase the amount of brown rice by speeding up the rotation of the cylinder, or vice versa. do.

Therefore, the present invention provides a rotary complete grain sorting device attached to a hulling device with a detection sensor that can detect the thickness of the flowing layer, and a supply section of the hulling device is equipped with an on-off valve, and the opening/closing valve is connected to the detection sensor. When the flow layer is thick, close the on-off valve,
An adjustment device for a rotary complete grain sorting device that is attached to a hulling device connected to open an on-off valve when the flowing layer is thin, and a control device for a rotary grain sorting device as claimed in claim 1, wherein the detection sensor and the horizontal axis rotating cylinder are Rotary speed changing device and a rotary set attached to the rice hulling device are connected so that when the flow layer is thick, the horizontal shaft rotary cylinder rotates quickly, and when the flow layer is thin, the horizontal shaft rotary cylinder rotates slowly. In the grain device adjusting device and the item of claim 1, the detection sensor and the finishing rice receiving trough of the horizontal axis rotating cylinder are arranged so that when the flow layer is thick, the finishing rice receiving trough becomes wide and Mf When the lamination is thin, the finished rice receiving trough is configured as an adjustment device for a rotary grain sorting device attached to a connected hulling device.

To explain it with an example diagram, 1 is a hulling section, which has a supply hopper 2 at the top, an on-off valve 3 and a feeding roll 4 at the lower end of the supply hopper 2, and a pair of hulling rolls at the bottom. 5.5 will be provided. A winnowing section 6 is formed at the lower part of the hulling roll 5.5. 7 is a suction blower that sucks and removes dusty rice husks in the air selection section 6; 8 is a wind exhaust pipe; 9 is a mixed rice conveyor; 1
0 is an unripe rice conveyor, 11 is a mixed rice receiving gutter, and 12 is an immature rice receiving gutter. A dissimilar grain sorting section 13 is provided on the side of the hulling section 1.

A horizontal shaft rotating cylinder 14 is installed horizontally within the different grain sorting section 13 .

Numerous potholes 15 are formed on the inner peripheral surface of the rotary cylinder 14.

A finished rice receiving trough 16 is provided inside the rotating cylinder 14. The receiving trough 16 is provided in the rotary cylinder 14 in its full longitudinal direction, and a finished rice conveyor 17 is installed horizontally on the bottom surface of the receiving trough 16. A take-out port 19 is formed at the end of the discharge side 18 of the finished rice receiving trough 16, and the lower end of the take-out port 19 opens onto the finished rice take-out trough 20.

21 is a conveyor for taking out finished rice.

The cross section of the finished rice receiving trough 16 is as shown in FIG. 3, and a finished rice regulating valve 23 is attached to the rotation rising side 22 thereof. The control valve 2
3 has its lower end fixed to a shaft 24, and by rotating the shaft 24, the angle of the control valve 23 is adjusted. An arm 25 is made to protrude laterally from the shaft 24, and a detection sensor 27 that moves up and down according to the thickness of the flow stack 26 is provided on the supply side of the horizontal shaft rotating cylinder 14, and the detection sensor 27 is pivotally attached to the shaft 28. An arm 29 is made to protrude from the shaft 28, and the arms 25 and 29 are connected by a rod 30.

An arm 31 is separately fixed to the end of the shaft 28 of the detection sensor 27, a rod 32 is engaged with the tip of the arm 31, and a lower end of the rod 32 is engaged with the arm 33. Arm 33
is attached to a shaft 34 provided at an arbitrary position and protrudes from a shaft cylinder 35. Another arm 36 is provided on the shaft cylinder 35, one end of a rod 37 is engaged with the arm 36, and the other end of the rod 37 is engaged with an arm 38. The arm 38 is the on-off valve 3
It is fixed to the shaft 39 of. 40 is a potentiometer fixed to the end of the shaft 28. 41 is a motor rotated by a potentiometer 40, 42 is a split pulley 43
44 is the finishing rice conveyor 1.
7 is attached to a pulley, 45 is a horizontal shaft rotating cylinder 14
46 is a pulley attached to the rotating shaft 45, 47 is a supply spiral shaft 42, a pulley 44, a pulley 4
6 is the belt that is being turned, and 48 is the tension pulley that is moved by the motor 41.

Next, we will discuss the effect.

When unhulled rice is supplied to the supply hopper 2 of the hulling section l, the unhulled rice is supplied from between the on-off valve 3 and the feed roll 4 to the hulling roll 5.5, where it is hulled and falls into the wind selection section 6, where it is passed through the suction blower. The rice husks are discharged from the exhaust pipe 8 by the suction wind 7, and the immature rice falls into the immature rice receiving trough 12 and is taken out from the immature rice conveyor 10. The mixed rice falls into the mixed rice receiving trough 11, is taken out by the mixed rice receiving trough 8, is fried to the supply port 49 by a thrower,
It is supplied from the supply port 49 to the supply gutter 50, transferred by the conveyor 43, reaches the right end in FIG. 1, and falls into the horizontally rotating cylinder 14. Since the horizontal rotating cylinder 14 is rotating in the direction of arrow A in Fig. 3, the grains form a flowing layer 26 and are biased toward the rising side, and the brown rice in the lower layer is pulled up through the pot hole 15 and falls into the finished rice receiving gutter 16. The finished rice is transferred to the discharge side 18 by the finished rice conveyor 17, falls from the outlet 19 into the finished rice take-out gutter 20, and is taken out by the finished rice take-out conveyor 21. The unhulled rice remaining in the horizontal shaft rotating cylinder 14 moves in the same manner, and then spills from the horizontal shaft rotating cylinder 14 and falls into the unhulled rice hopper 51, and is taken out by the screw 52 and returned to the supply hopper 2 for reprocessing. As this work continues, as the thickness of the flow stack 26 gradually increases, the detection sensor 27 is pushed up by the flow stack 26, and the shaft 2
Rotate 8, arm 29 → rod 30 → arm 25 →
The control valve 23 is moved in the direction of opening via the shaft 24 to increase the amount of the finished rice receiving trough 16. Further, in the embodiment shown in FIG. 2, when the shaft 28 rotates, the arm 31 moves upward, and the rod 32→
The on-off valve 3 is moved upward via the arm 33 → shaft tube 35 → arm 36 → rod 37 → arm 38 → shaft 39 to reduce the amount falling from the supply hopper 2. Also, when the shaft 28 rotates, the potentiometer 40 activates the remoter 41.
is rotated and the tension pulley 48 is moved in the direction of loosening, so the effective diameter of the supply helical shaft 42 increases, the pulley 46 is rotated quickly, the rotation of the horizontal shaft rotating cylinder 14 is quickly reduced, and the amount taken is increased. .

Conventionally, some rice hulling equipment is equipped with a mixed rice grain sorting device using a rotary set, but this grain sorting device is designed to ensure that there is too much grain in the rotary cylinder in order to properly sort mixed rice. The condition is that there is no shortage. If there is a significant amount of stagnation, the amount of brown rice to be scooped into the finished rice catcher is small, so you can increase the amount of brown rice by speeding up the rotation of the cylinder, or vice versa. do.

However, in the present invention, a detection sensor 27 capable of detecting the thickness of the flowing layer 26 is provided on the rotary grain sorting device 13 attached to the hulling device, and an on-off valve 3 is attached to the supply section of the hulling device. The detection sensor 27 and the on-off valve 3 are connected to the flow stack 26
When the flow layer 26 is thick, the on-off valve 3 is closed, and when the flow stack 26 is thin, the on-off valve 3 is closed.
In the adjustment device for a rotary two-grain sorting device attached to a hulling device connected to open the rice hull, and in claim 1, the detection sensor 27 and the horizontal axis rotating cylinder 1 are provided.
4 is connected to the rotation speed changing device in such a manner that the horizontal axis rotating cylinder 14 rotates quickly when the flow layer 26 is thick, and the horizontal axis rotating cylinder 14 rotates slowly when the flow area J'1326 is thin. In the adjustment device of the rotary second grain sorting device attached to the device and the one in claim 1, the detection sensor 27 and the finished rice receiving trough 16 of the horizontal shaft rotating cylinder 14 are connected to each other by a thick flowing layer 26. This is an adjustment device for a rotary complete grain sorting device that is attached to a connected hulling device so that the finished rice receiving trough 16 becomes wider when the flow layer 26 is thinner, and the finished rice receiving trough 16 becomes narrower when the flowing layer 26 is thinner. After the rice is detected by the detection sensor 27, the on-off valve 3 of the hulling device is opened and closed according to the thickness of the flow stack 26, so the amount of feed inside the horizontal shaft rotating cylinder 14 can be automatically adjusted to the optimum state. .

The rotation of the horizontal shaft rotating cylinder 14 is adjusted according to the thickness of the flow stack layer 26.
When the flow lamination layer 26 is thick, the horizontal shaft rotating cylinder 14 rotates quickly,
Since the horizontal shaft rotating cylinder 14 is connected to rotate slowly when the flow stack layer 26 is thin, the amount of the pot hole 15 is automatically changed, and the thickness of the flow stack layer 26 can be automatically adjusted.

C. The opening/closing degree of the finishing rice receiving gutter 16 is adjusted according to the thickness of the flowing layer 26. When the flowing layer 26 is thick, the finishing rice receiving gutter 16 becomes wide, and when the flowing layer 26 is thin, the finishing rice receiving gutter 16 becomes narrow. Since they are connected in such a way that they can be sorted rationally and efficiently.

This effect is achieved.

[Brief explanation of the drawing]

Fig. 1 is a longitudinal sectional side view of the whole, Fig. 2 is a perspective view of the first embodiment, Fig. 3 is a longitudinal sectional side view of Fig. 1, Fig. 4 is a sectional view of the split pulley, and Fig. 5 is a perspective view of the first embodiment. It is a perspective view of an example. Explanation of symbols 1... Hulling section, 2... Supply hopper, 3... On-off valve 4... Feeding roll, 5... Husking roll, 6...
Wind selection section, 7... Suction blower, 8... Wind exhaust pipe, 9.
...Mixed rice conveyor, 10...Immature rice conveyor, 11
...mixed rice catcher, 12...immature rice catcher, 13...
Different grain sorting 4 part, 14...horizontal shaft rotating cylinder, 15...pot hole, 16...
・Finishing rice catcher, 17...Finishing rice conveyor, 18...
Discharge side, 19... Take-out port, 20...-L rice take-out port, 21... Finished rice take-out conveyor, 22... Rotation rising side, 23... Finished rice control valve, 24...・Axis, 25...
・Ar 11. 26... Flow stack, 27... Detection sensor, 28... Axis, 29... Arm, 30... Rod, 31... Arm, 32... Rod, 33...・・・
Arm, 34...Axis, 35...Axis tube, 36...Arm, 37...Rod, 38...Arm, 39...
・Shaft, 40... Potentiometer, 41... Motor, 42... Supply spiral shaft, 43... Split pulley,
44... Pulley, 45... Rotating shaft, 46... Pulley, 47... Belt, 48... Tension pulley, 49... Supply source, 50... Supply gutter, 51...
・Paddy rice hopper, 52...screw. 5 Figure 4 42 Figure 5 Procedural amendment (drunk) Director of the Patent Office Kazuo Wakasugi 1, Indication of the case Relationship to 1982 patent application No. 43256 Patent applicant address Mamoto-cho, Matsuyama City, Ehime Prefecture 700-4, Agent address: 8-15-2 Nishi-Shinjuku, Shinjuku-ku, Tokyo 160
No. 5, Date of amendment order 6, Number of inventions increased by amendment 7, Subject of amendment Drawing ° 1 Specification 8, Contents of amendment (1) "Different grains" on page 5, line 13 and line 14 of the same page of the specification ``Sorting unit 13'' is corrected to ``10-1 tally grain sorting device 13''. (2) From the last line of page 14 to the first line of page 15, "13. Heterogeneous grain sorting unit" is corrected to "13. Rotary second grain sorting device." (3) Correct the drawings (Figures 1 to 5).

Claims (1)

[Claims] (1) A detection sensor 27 capable of detecting the thickness of the flowing layer 26 is provided on the rotary 2 grain selection device 3 attached to the hulling device,
An on-off valve 3 is attached to the supply section of the hulling device, and the detection sensor 27 and the on-off valve 3 are closed when the flow layer 26 is thick, and opened when the flow layer 26 is thin. This is an adjustment device for a rotary grain sorting device attached to a hulling device that is connected to the rice huller. (2. In Claim 1, when the detection sensor 27 and the rotation speed changing device of the horizontal axis rotating cylinder 14 are changed, when the flow lamination layer 26 is thick, the horizontal axis rotating cylinder 14 rotates quickly, An adjustment device for a rotary grain sorting device attached to a hulling device connected to the huller so that the horizontal shaft rotary cylinder 14 rotates slowly when the product R26 is small. The sensor 27 and the finished rice receiving trough 16 of the horizontal shaft rotating cylinder 14,
Adjustment device for a rotary two-grain sorting device attached to a connected huller removal device so that when the flowing layer 26 is thick, the finished rice receiving gutter 16 becomes wider, and when the flowing layer 26 is thin, the finished rice receiving gutter 16 becomes narrower.