JPS60244344A - Dehulling and sorting apparatus of huller - 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] Industrial applications The present invention relates to a husking sorting device for a rice huller.

Problems to be Solved by the Invention In a rotary sorting tube that feeds the unhulled rice scraped out by a dehulling device to the inner peripheral surface and rotates it to sort it,
The grains fed into the sorting cylinder are used to form a retention layer necessary for sorting, and the sorting conditions are approximately the best based on the throughput in the sorting cylinder and the amount removed by the pulverizer. It is possible to set a standard for the retained layer that is balanced with , and the sorting can be stabilized, and even if the throughput of the sorting cylinder is changed by increasing or decreasing the rotation speed of the sorting cylinder, the retained layer thickness balanced with the throughput can be maintained. It is desirable to maintain standards.

Means for Solving the Problem The invention provides a sorting cylinder (1) that rotates and sorts the grains supplied therein, and a sensor that is located inside this sorting cylinder (1) and detects a grain retention layer inside the sorting cylinder (1). (2), and a de-pudding device (
3) The relationship with the paddy supply control valve (4) that adjusts the amount of paddy to be supplied to the sensor (2)
The opening degree of the paddy supply control valve (4) is adjusted to small or large by detecting the decrease in the amount of paddy, and this is controlled by the sensor (2) by adjusting the rotation speed of the sorting tube (1) to high or low. The structure of the husking sorting device of a huller is constructed in such a manner that the grain retention layer detection reference area in the sorting tube (1) is interlocked to change and adjust the thickness and thinness.

Functions and Effects of the Invention If the peeled rice scraped out by the husking device (3) is supplied to the inner peripheral surface of the rotating sorting tube (1), the supplied grains will be removed from the sorting tube (1). A sorting action is performed by forming an appropriate retention layer on the inner circumferential surface for sorting, and the grains are separated into shelled grains and unshipped grains. If the balance with the rice being scraped out by the paddy pumping device (3) is disrupted, for example, if the grain retention layer in the sorting tube (1) increases, the sensor (2) will rotate upward and the paddy supply control valve ( The opening degree of 4) is adjusted to a small value to reduce the amount of paddy to be supplied to the husking device (3), and to maintain an appropriate layer thickness of grains in the sorting tube (1). death.

Also, when the thickness of the retained layer decreases, the sensor (2) rotates downward, greatly interlockingly adjusts the opening degree of the paddy supply control valve (4), and increases the amount supplied to the husking device (3). By stabilizing the thickness of the accumulated layer in the sorting tube (1), it is possible to eliminate instability in sorting due to clogging of grains in the sorting tube (1), etc., and to increase the rotation speed of the sorting tube (1). Then, the grain retention layer, which is the detection standard of the sensor (2), becomes thicker, and conversely, as the rotation speed is lowered, it becomes thinner. (1) It is possible to carry out the process while maintaining an appropriate amount of grains supplied to the inside, and it is possible to always carry out appropriate sorting according to the sorting efficiency.

Embodiment The embodiment shown in FIGS. 1 to 3 will be explained. De-pudding device (
3) consists of a hopper (5) for supplying grains, a paddy supply control valve (4) rotatably mounted on an opening/closing shaft (6), and a pair of left and right shredding rolls (7) below the paddy supply control valve (4). 7), and at the bottom of this dehulling device (3), there is a sorting shelf for sucking and sorting the rice that has been dehulled by the dehulling rolls (7) (7), and a suction device (8) having a suction fan. ), etc., and the selected paddy is discharged from the machine through a discharge port (9).

(10) is a rotary grain sorting device, which is located behind the threshing device (, 3) and is supported in a box (11) so as to be rotatable in the front and rear directions. ) around the sorting tube (
1) to rotate the drive rollers (13) (13)01. The sorting tube (1) is cylindrical and has a recess (
14), the front end is open, and the other end has a cylindrical end wall (
15) is provided inside the sorting tube (1), and inside the sorting tube (1) there is a helical receiving trough (16) for receiving the sorted scraped grains, which faces forward and backward, and both front and rear ends are attached to the box (11). ? # (
Attach the gate valve (17) to the shaft (18) on the rotation increasing (a) side of 1).
It is rotatably pivoted at the bottom, and a helix (19) is mounted on the bottom.

(20) is a supply gutter, which is located almost in parallel with the helical receiving gutter (16) and is located on the rotation rising side (A) in the front-rear direction. The body (11) is connected to a supply tank (22) provided at the front part, and the rear end is connected to the rear end of the sorting tube (1) through a supply gutter (23).
This supply gutter (20) is also formed to receive mixed rice for reduction, which is a mixture of shelled grains and unhulled grains produced during the sorting operation. The sensor'-(2) is located near the supply door gutter (23) in the rear end of the sorting cylinder (1) on the rotational rise (a) side,
It is rotatably mounted on a shaft (24) facing the recess (14) on the inner circumferential surface.

The supply tank (22) is located at the front end of the box (11),
The flow plate (25) is formed into a funnel shape with (25) and the lower side communicates with the supply gutter (20) to receive the scraped rice scraped out from the threshing device (3) from the mixing thrower (26). It is formed so that it can be supplied to the sorting tube (1), and has a passageway for discharging the scraped grains collected from the helical receiver fa (16) downward. The shelled grains discharged through this passage are configured to be discharged outside the machine by a thrower (27), and the unshipped grains that are sorted and fall from the inner peripheral surface on the front end side of the sorting tube (1). is returned to the removing device (3) by the thrower (28) and is reexplained.

(29) is an automatic speed change pulley, which is interlocked with the gear linkage mechanism of the shedding device (3), and this automatic speed change pulley (29)
Drive roller (13) with belt (30) through (13)
, and helix (19) respectively.

The helix (21) is a gear (31) from the helix (19),
(32). (33) is the roll axis (1
2) A bell crank that rotates around the axis, with an idler wheel (34) rotatably provided at one end, and the tip of the other end rotatably operated around the fulcrum pin (35). Lever (3
This operation lever (36) is interlocked and connected to the - side end of
) can rotate the bell crank (33) and tension the belt (30), and when operated downward, the drive roller (13) (13)08. through the sorting tube (1
) is configured to become high speed, and when operated upward, the speed becomes slow. (37) is a connecting arm, whose negative end is fitted into the front end of the shaft (24) so that it can rotate at the same time as the sensor (2) is actuated, and the other end is connected to the interlocking rod (38). ) into the long groove part to connect the pin (39), and the interlocking rod (38
) is rotatable around a pin (39), one end is rotatably connected to the other end of the operating lever (36) with a pin (40), and the other end is connected with a link mechanism (41). Paddy supply control valve (4
), these sensors (2) and control valves (4)
), when the sensor (2) operates upward, the connecting arm (37) rotates downward about the shaft (24),
Due to this operation, the interlocking rod (38) rotates downward with the pin (39) sliding in the long groove about the pin (40), and the paddy supply control valve (4) is closed by the link mechanism (41). If the sensor (2) operates downward, it rotates in the opposite direction, and the paddy supply control valve (4) operates in the opening direction.

Furthermore, the relationship between these and the rotational speed of the sorting tube (1) is that if the operation lever (36) is operated downward, the sorting tube (1) will rotate at high speed as described above, and the pin (39) will be at the position. is moved downward to adjust the thickness of the stagnant layer detection reference area by the sensor (2), the interlocking rod (38) rotates around this pin (39), and the link mechanism (41) removes the paddy. If the supply control valve (4) is operated in the opening direction and also in the upward direction, the sorting tube (1) and the paddy supply control valve (4) are operated in the opposite manner.

The paddy put into the hopper (5) is transferred to the paddy supply control valve (4).
Rolls (7) (7) are removed from the removal device (3) depending on the opening degree of the
The amount of paddy supplied to the tank is determined in advance by installing the paddy supply control valve (4) and sensor (2) in the recess (1) of the sorting tube (1).
14) is interlocked and connected by a link mechanism (41) etc. in a state where the part becomes almost the best retained layer thickness reference area required at the time of sorting, and is caused to flow down between the depulping rolls (7) (7). Skip roll (7)
The crushed rice scraped out in step (7) is placed on the 1 sorting shelf and the suction device (
8), the paddy is discharged outside the machine from the discharge port (9), and the wind-selected rice is passed through the mixed rice thrower (26).
) into the supply tank (22), and the supply gutter (2
0) is once transported backward by the helix (21), and then continuously supplied to the rotating sorting tube (1). The supplied rice in the sorting cylinder (1) forms a retention layer from the cylinder end wall (15) side, and the thickness of this retention layer causes the sensor (2
) is operated to form a stable retention layer thickness, and the grains repeat the cycle of rising and falling on the rising side of the rotation (a), and the shelled grains are dented. (14), scooped up the person and fell into the helical receiving gutter (16), and the helical (
19), is discharged through a passage provided in the supply tank (22), and is discharged outside the machine by a thrower (27). Further, the mixed rice for reduction, which is a mixture of shelled grains and unhulled grains generated during sorting, falls into the supply gutter (20) and is combined with the supplied washed rice, where the sorting is repeated again. The unslipped grains are transported forward while sliding down the surface layer of the flowing retention layer, and the above-mentioned sorting is repeated until they fall from the front end of the sorting tube (1) and are transferred to the shredding roll (7) by the thrower (28). (7) Husking work is carried out before being reduced and reprocessed.

During this hulling operation, if the amount of grains supplied to the sorting tube (1) changes, the thickness of the retained layer formed in the sorting tube (1) also changes. This fluctuation causes the sensor (2
) rotates up and down, and in conjunction with this rotation, the paddy supply control valve (4) operates to adjust the degree of opening of grains to the husking rolls (7) (7), so that the sorting cylinder is always Grain is supplied in proportion to the throughput of sorting in (1), and stable work can be achieved without clogging in the sorting tube (1) or the like. Also, the operation lever (
36), when the rotation speed of the sorting tube (1) is changed to change the sorting throughput, the stagnation detection reference range of the sensor (2) is changed in conjunction with this by operating the operating lever (36). The interlocking rod (38) is adjusted to be thick or thin, and the interlocking rod (38) is attached to the pin (
39), the opening degree of the paddy supply control valve (4) is adjusted in conjunction with the link mechanism (41), and a supply amount balanced with the changed processing amount is obtained, increasing the processing capacity. It can also be improved.

[Brief explanation of drawings]

The drawings show an embodiment of the present invention, in which FIG. 1 is a partially sectional side view, FIG. 2 is a partially sectional rear view, and FIG. 3 is a partially sectional front view. In the figure, reference numeral (1) indicates a sorting tube, (2) indicates a sensor (3), a phus removal device, and (4) indicates a paddy supply control valve. Name of patent applicant: Masataka Iseki, representative of Iseki Agricultural Machinery Co., Ltd.

Claims (1)

[Claims] A sorting tube (
1), a sensor (2) located inside the sorting tube (1) that detects the grain retention layer therein, and a paddy supply control valve (4) that adjusts the amount of paddy to be supplied to the husking device (3). ), etc., so that the opening degree of the paddy supply control valve (4) is adjusted to small or large by detecting an increase or decrease in the grain retention layer by the sensor (2), and the sorting tube This sorting tube (1) is controlled by the sensor (2) by adjusting the rotation speed of (1) to high or low.
) The grain retention layer detection reference area in ) is configured to be interlocked to change and adjust the grain retention layer detection standard area to thick or thin. Device.