JPH028792B2 - - Google Patents

Description

[Detailed description of the invention]

(Industrial Application Field) The present invention relates to an adjusting device for a finished rice receiving trough in a rotary grain sorting device. (Prior art) A conventionally known rotary grain sorting device has a horizontally rotating cylinder with numerous potholes formed on its inner surface, and inside the horizontally rotating cylinder, finished rice is placed along the axial direction. In a rotary type grain sorting device in which a receiving gutter is attached and a finished rice take-out conveyor is mounted on the finished rice receiving gutter, a rotating rising side in the horizontal axis rotating cylinder is arranged so that the rice rises as the horizontal axis rotating cylinder rotates. A sensor for detecting the thickness of the falling grain layer is provided, and a finishing rice control valve for adjusting the receiving gutter area of the finishing rice receiving gutter to be wider or narrower is fixed to the rotating rising side of the finishing rice receiving gutter, This document describes a device for adjusting a finished rice receiving trough in a rotary grain sorting device, in which a forward/reverse motor is attached to the shaft of the rice regulating valve and is rotated forward or backward by the thickness sensor. (Problems to be Solved by the Invention) The conventionally known device has a structure in which the finished rice control valve is moved up and down by a forward/reverse motor that is rotated forward or backward by a thickness sensor that detects the thickness of the falling grain layer. However, there is a problem with the thickness sensor. That is, the thickness of the falling layer and the grain rise are not necessarily proportional. For example, grains with a high moisture content tend to rise high even though the thickness of the falling layers hardly changes. This phenomenon is also observed with small particle sizes. In other words, it can be said that adjustment by the thickness of the falling layer is not suitable for grains with a high moisture content or grains with small grain sizes. In addition, with conventional devices, when the relative position of the finished rice control valve and the falling layer approaches a certain level, the unhulled rice rises to the upper position of the finished rice receiving trough, so the unhulled rice gets mixed into the brown rice. , no countermeasures have been taken. (Object of the invention) Therefore, the present invention provides the above-mentioned moisture-rich grains,
The purpose is to obtain a regulating device suitable for small particle sizes. In addition, the finished rice control valve and the falling layer are prevented from coming closer than a certain level. (Means for Solving the Problems) Therefore, the present invention provides a horizontally rotating cylinder 11 with a horizontal axis in which countless potholes 12 are formed on the inner surface, and the horizontally rotating cylinder 1.
In a rotary type grain sorting device in which a finished rice receiving gutter 13 is installed along the axial direction in the rotary type grain sorting device, the upper end portion of the horizontal axis rotating cylinder rotation rising side 18 of the finished rice receiving gutter 13 is vertically movable. The lower end of the finished rice regulating valve 19 is fixed by a shaft 20, and the lower surface side 39 of the finished rice regulating valve 19 is provided with a height of a falling layer 28 of grains that rises as the horizontal shaft rotating cylinder 11 rotates. A high part sensor 26 and a low part sensor 27 for detection are installed integrally with an interval in the vertical direction, and the finished rice control valve 19 is rotated in the normal or reverse direction by the high part sensor 26 or the low part sensor 27. This is an adjustment device for a finished rice receiving trough in a rotary grain sorting device equipped with a forward/reverse motor 25. (Example) To explain with reference to the drawings, reference numeral 1 denotes a hulling section, 2 a supply hopper above the hulling section, and 3, a pair of hulling rolls at the bottom of the supply hopper 2. A winnowing section 4 is formed at the lower part of the hulling rolls 3, 3. Reference numeral 5 designates a blower for sucking and removing dust in the wind sorting section 4, 6 a mixed rice conveyor, 7 an unripe rice conveyor, 8 a mixed rice receiving gutter, and 9 an unripe rice receiving gutter. A dissimilar grain sorting section 10 is provided on the side of the hulling section 1. Inside the dissimilar grain sorting section 10, a horizontally rotating cylinder 11 is installed horizontally. Numerous potholes 12 are formed on the inner circumferential surface of the horizontally rotating cylinder 11. A finished rice receiving trough 13 that is long in the axial direction of the horizontal rotating cylinder 11 is installed inside the horizontal rotating cylinder 11 . The finished rice receiving trough 13 extends in the longitudinal direction of the different grain sorting section 10.
It has a full length, and a finished rice take-out conveyor 14 is installed horizontally on its bottom surface. A take-out port 15 is formed at the end of the finished rice receiving trough 13 on the hulling section 1 side, and the lower end of the take-out port 15 opens into a finished rice take-out trough 16. 17 is a finished rice discharge conveyor provided on the finished rice take-out gutter 16. The cross section of the finished rice receiving trough 13 is as shown in Fig. 2, and the finished rice control valve 1 is installed on the rotation rising side 18.
Install 9. The lower end of the finishing rice control valve 19 is the shaft 20.
As shown in FIG. 1, the shaft 20 protrudes outward from the dissimilar grain sorting section 10, and a gear 21 is fixed there, and the gear 22 is meshed with the gear 21, and the shaft of the gear 22 is fixed to the shaft 20. A handle 24 and a forward/reverse rotation motor 25 are attached to 23. Rotation rising side 1 on the starting end side of the finished rice control valve 19
On the lower surface side 39 of the 8 side, a high part sensor 26 and a low part sensor 27 are spaced in the vertical direction so that the finished rice control valve 19, the high part sensor 26, and the low part sensor 27 move together. Set aside. This is to ensure that the relative positions of the finished rice control valve 19 and the sensors 26, 27 always maintain a correct constant interval. The low sensor 27 is activated when the falling stack 28 is low, and the high sensor 26 is activated when the falling stack 28 is high. Then, the high part sensor 26 and the low part sensor 27 cause the forward/reverse rotation motor 25 to rotate in the forward and reverse directions. A supply gutter 30 is installed in parallel on the rotating downward side 29 of the finished rice receiving gutter 13. A supply conveyor 31 is provided within the supply gutter 30. A thrower 32 is attached to the discharge end of the mixed rice conveyor 6. The thrower 32 is the dissimilar grain sorting section 1
The hopper 33 is connected to the starting end of the supply trough 30. Supply gutter 30
A falling tube 34 that supplies the inside of the horizontal axis rotating tube 11 is provided at the terminal end of the tube. 35 is a rectifying plate, 36 is an intermediate shelf, 37 is a paddy return shelf, and 38 is a mixed rice recovery gutter. (Effect) Next, the effect will be described. When paddy rice is put into the supply hopper 2, it is hulled by the hulling rolls 3, 3, falls into the wind sorting section 4 and is wind-selected, light grains are sucked by the blower 5, and the mixed rice of paddy and brown rice is The mixed rice falls into a receiving gutter 8, and the immature rice falls into an immature rice receiving gutter 9. The mixed rice that has fallen into the mixed rice receiving trough 8 is conveyed horizontally by the mixed rice conveyor 6 and flows into the thrower 32, which is then raised and sent to the hopper 33.
is supplied to Since the hopper 33 is connected to the supply gutter 30, it flows into the supply gutter 30, is sent to the right side in FIG. is supplied to The horizontal shaft rotating cylinder 11 is shown in FIGS. 2 to 4 as follows.
Since the rice is rotated in a clockwise direction, the mixed rice is shifted toward the rotation rising side 18 as it rotates, and a falling layer 28 is formed. In this falling layer 28, the relatively lower layer is brown rice and the relatively upper layer is unhulled rice, so the grain that fits into the pot hole 12 is mostly brown rice, which is due to the fact that
As the rice rotates, it rises and falls into the finished rice receiving gutter 13. The brown rice that has fallen into the finished rice receiving gutter 13 is moved to the left in FIG. Ru. Therefore, as the amount supplied into the horizontal shaft rotating cylinder 11 decreases, the falling layer 28 becomes lower, further lower than the lower sensor 27, and further away from it. Then, the lower part sensor 27 turns on, automatically rotates the forward/reverse motor 25 in the forward direction, transmits rotation from shaft 23 → gear 22 → gear 21 → shaft 20, and rotates finished rice control valve 19 to lower the level. However, as the amount of supply in the horizontal rotating cylinder 11 increases and the falling layer 28 becomes higher, it comes into contact with the lower sensor 27, which turns off, and the rotation of the forward/reverse motor 25 stops. Continuing on, as the supply amount in the horizontal shaft rotating cylinder 11 increases, the falling layer 28 becomes higher and comes into contact with the high sensor 26 . Then, the high sensor 26 turns on, automatically reverses the forward/reverse motor 25, transmits rotation as follows: shaft 23→gear 22→gear 21→shaft 20, and moves the finished rice control valve 19 upward. The supply amount in the horizontal shaft rotating cylinder 11 decreases, and the falling layer 2
8 becomes low and separates from the high sensor 26, the high sensor 26 turns off and the forward/reverse motor 2
5 stops rotating. In this way, the relative position between the finished rice control valve 19 and the sensors 26 and 27 can be adjusted.
Paddy rice does not mix with brown rice. Adjust by maintaining a certain distance. (Effects) A conventionally known rotary grain sorting device has a horizontal rotating cylinder with numerous pot holes formed on its inner surface, and inside the horizontal rotating cylinder, a finished rice receiver is placed along the axial direction. In a rotary grain sorting device in which a gutter is attached and a finished rice take-out conveyor is mounted on the finished rice receiving gutter, grains that rise as the horizontal axis rotating cylinder rotates are placed on the rotation rising side of the horizontal axis rotating cylinder. A sensor is provided to detect the thickness of the falling layer of the finished rice, and a finishing rice control valve for adjusting the receiving gutter area of the finished rice receiving gutter to be wider or narrower is fixed to the rotating upward side of the finished rice receiving gutter, There is a description of an adjusting device for the finished rice receiving trough in a rotary type grain sorting device, in which a forward/reverse motor that is rotated forward or backward by the thickness sensor is attached to the shaft of the control valve. There is a problem in that a thickness sensor is used in the structure that moves the rice regulating valve up and down, and that the finishing rice regulating valve and the falling layer are too close to each other due to changes in the relative position between the finishing rice regulating valve and the sensor. In other words, the thickness of the falling layer and the rise of the grain are not necessarily proportional, and grains with high moisture content or grains with small grain sizes can be seen to rise higher even though the thickness of the falling layer hardly changes. , because it uses a thickness sensor, it cannot be fully adjusted. Furthermore, if the relative positions of the finished rice control valve and the sensor are too close, unhulled rice will be mixed into the brown rice. However, in the present invention, a horizontal rotating cylinder 11 with countless potholes 12 formed on the inner surface is installed horizontally, and a finished rice receiving trough 13 is installed in the horizontal rotating cylinder 11 along the axial direction. In the rotary type grain sorting device, on the horizontal axis rotating cylinder rotation rising side 18 of the finished rice receiving trough 13,
The lower end of the finished rice regulating valve 19 whose upper end moves vertically is fixed by a shaft 20, and the lower end 39 of the finished rice regulating valve 19 is provided with a grain drop that rises as the horizontal axis rotating cylinder 11 rotates. A high sensor 26 and a low sensor 27 for detecting the height of the stack 28 are integrally installed with an interval in the vertical direction. Since this is an adjustment device for a finished rice receiving trough in a rotary type grain sorting device equipped with a forward/reverse motor 25 that can be rotated in the forward or reverse direction, the lower surface side 39 of the finished rice control valve 19 is provided with the horizontal shaft rotary cylinder. By having a configuration in which a high part sensor 26 and a low part sensor 27 that detect the height of the falling layer 28 of grain that rises as the grain rotates, the finished rice control valve 19, the high part sensor 26, and the low part sensor 27 move up and down together while always maintaining the same interval, so that the finished rice control valve 19 receives a falling layer 2.
8 is too close to each other and the defect that unhulled rice is mixed into brown rice can be prevented. It can handle and sort grains with high moisture content and grains with small grain sizes.

[Brief explanation of drawings]

Fig. 1 is a longitudinal side view of the whole, Fig. 2 is a sectional view taken along E-A in Fig. 1, and Fig. 3 is a sectional view taken along Ro-Ro in Fig. 1.
FIG. 4 is a sectional view taken along the line H--H in FIG. 1, and FIG. 5 is a circuit diagram. Explanation of symbols: 1...hulling section, 2...supply hopper, 3...hulling roll, 4...wind sorting section, 5...blower, 6...mixed rice conveyor, 7...unripe rice conveyor, 8...Mixed rice receiver, 9...Immature rice receiver,
10...Different grain sorting section, 11...Horizontal shaft rotating cylinder, 1
2... Pot hole, 13... Finished rice receiving gutter, 14... Finished rice take-out conveyor, 15... Outlet, 16... Finished rice take-out gutter, 17... Finished rice discharge conveyor, 18...
...Rotation rising side, 19... Finished rice control valve, 20...
Shaft, 21...gear, 22...gear, 23...shaft,
24...Handle, 25...Motor, 26...
High sensor, 27...Low sensor, 28...
Falling layer, 29... Descending side, 30... Supply gutter, 31
... Supply spiral, 32 ... Thrower, 33 ... Hopper, 34 ... Fall tube, 35 ... Straightening plate, 36 ...
...Intermediate shelf, 37...Paddy return shelf, 38...Mixed rice collection gutter, 39...Bottom side.

Claims (1)

[Claims] 1. A rotary type grain sorting device in which a horizontal shaft rotating cylinder 11 with countless pot holes 12 formed on the inner surface is installed horizontally, and a finished rice receiving trough 13 is installed in the horizontal shaft rotating cylinder 11 along the axial direction. , the lower end of a finished rice regulating valve 19 whose upper end moves up and down is fixed to the rising side 18 of the horizontal shaft rotating cylinder of the finished rice receiving trough 13 by a shaft 20. On the lower surface side 39, a high part sensor 26 and a low part sensor 27 for detecting the height of the falling layer 28 of grains which rises as the horizontal shaft rotary cylinder 11 rotates are integrally installed with an interval in the vertical direction. , A control device for a finished rice receiving trough in a rotary type grain sorting device, in which a forward/reverse motor 25 is attached to the finished rice regulating valve 19 and is rotated forward or backward by the high sensor 26 or the low sensor 27.