JP2660915B2 - Grain sorting equipment - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial Application Field] The present invention comprises, for example, a plurality of vertically-rotating sorting cylinders for separating and removing waste rice from brown rice. The present invention relates to a grain sorting device such as a rice sorting machine that is automatically moved. [Prior art] Conventionally, as shown in the specification of Japanese Patent No. 84033, a plurality of sorting cylinders are provided substantially vertically, and each sorting cylinder revolves in the opposite direction while revolving, separating brown rice into regular brown rice and scrap rice. There is a technology to take out. [Problems to be Solved by the Invention] Since the prior art provided a revolving power transmission section below the sorting cylinder and provided a rotation transmission section above the sorting cylinder,
Problems such as the simplification and compactness of the sorting cylinder drive structure cannot be easily achieved, and the necessity of disassembling the sorting cylinder by disassembling the transmission section makes it difficult to simplify the disassembling and assembling operation of the sorting cylinder. There is. [Means for Solving the Problems] However, in the present invention, a plurality of sorting cylinders are provided substantially vertically, and each sorting cylinder revolves in the opposite direction while revolving, to separate and extract brown rice into regular brown rice and scrap rice. In the grain sorting device, the bottom plate is fixed to the lower end of the main shaft to be vertically suspended, the support shaft at the lower end of the sorting cylinder is inserted below the bottom plate, the planetary gear is fixed to the lower end of the support shaft, and the lower end of the main shaft is fixed to the shaft. A sun gear is fixed to the body frame to be supported, and the sun gear is connected to the planetary gear via the idle gear between the bottom plate and the body frame. [Operation] Therefore, the drive structure for revolving and rotation can be concentrated below the bottom plate provided with the sorting cylinder on the upper surface side, and the sorting cylinder drive structure can be easily simplified and downsized. Without disassembling the sorting cylinder driving unit, the sorting cylinder can be detached and attached to the upper side of the bottom plate, and the sorting cylinder disassembling and assembling operation can be easily performed. Embodiment An embodiment of the present invention will be described below in detail with reference to the drawings. FIG. 1 is an explanatory view of a sorting cylinder rotating drive unit, and FIG. 2 is a side view of the whole, in which (1) is a rice sorting machine, (2) is a brown rice inlet, and (3) is the inlet ( A brown rice receiving hopper for receiving brown rice from 2), (4) ... a sorting cylinder for separating and sorting crushed rice such as immature rice and broken rice from the brown rice from the hopper (3);
(5) is a waste rice discharge port for taking out the waste rice separated and removed by the sorting cylinder (4)..., And (6) is a shoot (7) of the conditioned brown rice sorted by the sorting cylinder (4). And (8) is a brown rice tank for temporarily storing, via a chute (9), brown rice that has been ground by the conveyor (6), and (10) is inside the tank (8). (11) is an opening / closing shutter provided at the discharge port (10), and the brown rice supplied from the input port (2) is placed in a sorting cylinder (4). When the rice is fed, it is configured to separate and remove the scrap rice outside the mesh surface of the cylinder (4) by the rotating sieve action of the cylinder (4). As shown in FIGS. 3 to 5, four sorting cylinders (4) are provided at equal intervals around the rotating main shaft (12), and the upper end of the cylinder (4) is connected to the upper support member (13). , The support shaft (14), the guide frame (15), the distribution plate (16), and the upper coupling body (17) via the hexagonal shaft portion (12a) of the main shaft (12) so as to be vertically slidable and integrally rotated ( The upper and lower disks (19, 20) are rotatably supported by the hexagonal shaft portion (12a) via a lower coupling body (18).
0) the lower end of the sorting cylinder (4).
And a rotatable (rotating) support via a hexagonal head (22a) of a rotary support shaft (22) and a support bearing (23). The lower end of the main shaft (12) is rotatably supported by a base frame (25) fixedly mounted on a machine frame (24) via a holder (26) serving as a main shaft boss. 28) through the reduction gears (29) and (30) to the main shaft (12)
And the motor shaft (31a) of the drive motor (31)
A continuously variable split pulley (36) attached to the input shaft (35) of the drive gear case (27) via a belt (33) and a tension pulley (34) is linked to a small diameter pulley (32) attached to the gear to be able to transmit gears. At the same time, the bevel gears (37) (3) in the gear case (27) are connected to the first output shaft (28).
8) The input shaft (35) is interlocked and connected via (39), the main shaft (12) is rotated by the rotational driving force of the motor (31), and each sorting cylinder (4). It is configured to revolve around 12). The bevel gear (38) is a drive gear case (27)
The first output shaft (28) and the input shaft (35) are attached to the second output shaft (40) for driving the conveyor for grain provided in
The bevel gear (38) is meshed with each bevel gear (37) (35) attached to the shaft, and when the input shaft (35) is rotated, the first output shaft (28) is rotated and simultaneously the second output shaft (40) is rotated. Then, the above-mentioned fry conveyor (8) is configured to be driven via a conveyor driving pulley (41) fixed to the shaft (40). Further, a sun gear (42) is integrally fixed to the holder (26), and each planetary gear (43) integrally fixed to each of the support shafts (22) is connected to the sun gear (42) via an idle gear (44). When the support shaft (22) revolves around the main shaft (12), the support shaft (22) rotates through the respective gears (42), (43), and (44) in a direction opposite to the revolving direction (a). Shaft (22)
Are rotated on each other, and the revolving direction (a) of the sorting cylinder (4).
And the rotation direction (b) are set to be opposite directions. The idle gear (44) is mounted on the lower disk (20) via a gear shaft (44a), and their drive systems are arranged in a concentrated manner below each of the sorting cylinders (4). The rotation speed (n) of each of the sorting cylinders (4)... Is larger than the revolution speed (N) (n> N).
By setting the rotation speed (n) to be higher than the revolution speed (N) and in the opposite direction, the brown rice which sticks to the inner and outer sides of the cylinder (4) due to the centrifugal force at the time of revolution can be removed from the cylinder. (4) It is configured such that it is uniformly stirred by the spinning action in the opposite direction to promote the downward flow, thereby improving both the sorting accuracy and the processing capacity. As shown in FIGS. 6 and 7, the upper and lower disks (19)
A scrap rice discharge blade (45) and a uniform rice discharge blade (46) are provided on the outer periphery of (20), respectively, and an upper waste rice gutter (47) and a lower uniform rice gutter ( 48) Prevent the inside, and even if brown rice is supplied when the sorting unit (89) stops driving due to forgetting to turn on the power, etc., the sorting cylinder (4)
It is configured to reliably shut off its supply to the As shown in FIG. 11, the side wall surface of the rice-regulating brown rice tank inlet (70) opened above the fry conveyor room (52) is formed on an inclined surface (70a) having an elastic plate such as rubber laid on the surface. When the brown rice is discharged from the conveyor (6) into the input port (70), the rice is brought into contact with the inclined surface (70a) so that the discharge direction is changed to the tank (8) side. The fry conveyor room (52) and the sorting section (89) are separated by matching side plates (24a) constituting the machine frame (24), and are provided so as to reduce the total weight of the machine body. Further, the overflow port (7) is provided on the lower surface of the chute (9) near the inlet (70) through a jammer plate (71).
2) is opened, and when the tank (8) is full and overflows into the mouth (72), it is returned to the hopper (3) through an overflow passage (73), and In this state, an overflow sensor (74) provided in the overflow port (72) is operated to sound an alarm buzzer. The present embodiment is configured as described above, and the brown rice fed into the brown rice receiving hopper (3) from the input port (2) is fed into the sorting cylinder (4), and is fed to the sorting cylinder (4). Thus, the waste rice is fried to the brown rice tank (8) via the fry conveyor (6) from which the separated rice is separated and removed, and is appropriately discharged outside the machine. Thus, during the revolution and rotation of the sorting cylinder (4), the leakage of the scrap rice from the mesh (61) is promoted by the action of the centrifugal force at the time of revolution, and in the revolution direction (a). By the reversal rotation stirring action, the brown rice is stirred in a uniform distribution state in the cylinder (4), further promoting the separation of the scrap rice, and flowing down the brown rice well while rotating the brown rice along the inner peripheral surface of the cylinder (4). The processing capacity is improved. Further, in the rotating structure of the sorting cylinder (4), each of the support shafts (22) and the gear shaft (44a) is provided on a disk (20) rotated by the main shaft (12). ) And the gear shaft (44a) with the planetary gears (43) and idle gear (44) attached, and the sun gear (42) on the holder (26) of the space frame (25) fixed to the machine frame (24). And fix these gears (42) (43) (44)
, The direction of rotation and the direction of revolution are opposite to each other and the rotation speed (n) is larger than the revolution speed (N) (a> N) can be easily obtained. In addition, since the planetary gear (43) and the idle gear (44) are integrally mounted on the disk (20), compact separation and assembling properties are excellent. The revolving direction (a) and the rotation direction (b) can be matched by directly meshing the planetary gear (43) with the sun gear (42) without passing through the idle gear (44). [Effects of the present invention] As is clear from the above embodiments, the present invention provides a plurality of sorting tubes (4)... Substantially vertically, and rotates each sorting tube (4). In the grain sorter that separates brown rice into clean brown rice and scrap rice, the main spindle (1
2) Fix the bottom plate (20) to the lower end, and insert the support shaft (22) at the lower end of the sorting cylinder (4) below the bottom plate (20).
2) A planetary gear (43) is fixed to the lower end, and a sun gear (42) is fixed to a body frame (25) that supports the lower end of the main shaft (12). The bottom plate (20) and the body frame (25) are fixed. A sun gear (42) is connected to a planetary gear (43) via an idle gear (44), and the sorting cylinder (4) is provided below the bottom plate (20) provided on the upper surface side for revolution and rotation. By arranging the drive structure in a concentrated manner, it is possible to easily simplify and downsize the drive structure of the sorting tube (4), and to disassemble the drive portion of the sorting tube (4) without disassembling the bottom plate (20). (2) The sorting tube (4) can be detached from the upper side, and the disassembling and assembling operation of the sorting tube (4) can be easily performed.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an explanatory view of a sorting cylinder rotating drive section, FIG. 2 is an overall side view, FIG. 3 is an explanatory view of a sorting cylinder section, FIG. FIG. 5 is a plan view of FIG. 1, FIG. 6 is a partially enlarged view of the sorting cylinder, FIG. 7 is a plan view of the same, FIG. 8 is a plan view of a hopper feeder, and FIG. FIG. 10 is a plan view of the plate, FIG. 10 is an exploded perspective view of the same, and FIG. 11 is a perspective view of a brown rice tank portion. (4) ... sorting cylinder, (12) ... spindle (22) ... spindle, (25) ... body frame (42) ... sun gear, (43) ... planetary gear (44) ... idle gear

   ────────────────────────────────────────────────── ─── Continuation of front page    (72) Inventor Eiichi Okamoto               1-32 Chaya-cho, Kita-ku, Osaka-shi, Osaka               Ma Agricultural Machinery Co., Ltd.                    Panel     Referee Hideyoshi Yoshida     Referee Shunji Fujii     Judge Shigehiro Toyonaga                (56) References Patent 84033 (JP, B2)

Claims (1)

(57) [Claims] A plurality of sorting cylinders (4) are provided substantially vertically, and each sorting cylinder (4) revolves in the opposite direction while revolving, so that the brown rice is separated into brown rice and scrap rice, and the grain sorting device is vertically installed. The bottom plate (20) is fixed to the lower end of the main shaft (12) to be fixed, the support shaft (22) on the lower end side of the sorting cylinder (4) penetrates below the bottom plate (20), and the planetary gear (43) is connected to the lower end of the support shaft (22). ) Is fixed, and a sun gear (42) is fixed to a body frame (25) that supports the lower end of the main shaft (12). The sun gear (42) is fixed between the bottom plate (20) and the body frame (25). A grain sorter characterized by being connected to a planetary gear (43) via an idle gear (44) and having their drive systems concentrated below each sorter cylinder (4).