RU163296U1 - THRESHING DEVICE FOR ALFERIA BEANS - Google Patents

Abstract

1. A threshing device for alfalfa beans, comprising a chamber containing a cylindrical body and a bottom in which movable blades and a cantilever shaft are installed, the camera bottom is mounted to rotate on the cantilever shaft, forming a gap with the housing, and the movable blades are fixed to the bottom, and trough, characterized in that the camera is equipped with an additional camera in the form of a truncated cone, located between the body and the trough and facing its smaller base to the body, the peripheral part of the bottom is made with an inclination downward, and the trough with abzhen perforated disk under the fixed gap formed bottom and a camera body, an elastic member which is rigidly attached to the gutter, and with the possibility of interaction with the kinematic bottom through kulachki.2 mounted thereon. A threshing device for alfalfa beans according to claim 1, characterized in that the perforated disk is provided with a ring mounted on its outer upper edge. A threshing device for alfalfa beans according to claim 1, characterized in that the peripheral part of the bottom is provided with protrusions.

Description

The utility model relates to agriculture, in particular to devices for threshing alfalfa beans in the seed production process.

A threshing device for alfalfa beans is known comprising a chamber containing a cylindrical body and a bottom, in which movable blades are mounted at a constant distance from its inner surface and a cantilever shaft, the chamber bottom being mounted for rotation on the cantilever shaft, forming a gap with the housing, and movable the blades are fixed laterally on the bottom vertically, while the bottom in the center has a guide element in the form of a cone along the tangent circumference of the base, which the blades are directed, and opposite the first end of the blade is located on the bottom edge. (Patent for invention RU No. 125814, class A01F 11/04, 2013).

The disadvantages of the known threshing device, adopted for the prototype, are its low throughput and significant material consumption of the structure.

These disadvantages are due to the following. The threshing of alfalfa beans in a known threshing device occurs in the gap between the end surface of the moving blades and the inner surface of the housing of the threshing device. The surface area of the considered gap is relatively small. Therefore, a low second feed or throughput of the threshing device and, as a consequence, its low productivity.

In addition, the low throughput is due to the fact that the technological operation of threshing alfalfa beans, carried out by a threshing device for alfalfa beans, is performed separately from the technological operation of separating seeds from impurities by a seed cleaning machine and after the operation of threshing beans. In the process under consideration, the threshing of alfalfa beans between the technological operations of threshing beans and separating seeds from impurities is the technological operation of moving the threshed heap to a seed cleaning machine. Separate execution of operations for threshing beans and separating seeds from impurities, as well as the presence of the operation of moving the threshed heap from the threshing device to the seed cleaning machine, reduces the throughput of the known threshing device

The presence in the design of the threshing device of the guide element increases the material consumption of the structure. At the same time, the internal volume of the chamber of the threshing device is reduced with the same overall dimensions.

The closest in technical essence and the achieved result is a threshing device for alfalfa beans comprising a chamber containing a cylindrical body and a bottom in which movable blades and a cantilever shaft are installed, the bottom of the chamber is mounted for rotation on the cantilever shaft, forming a gap with the casing, and the movable blades are fixed on the bottom, and the housing is equipped with a ring fixed under the bottom having an upper flat surface, which is inclined downward, the movable blades are located beyond the edge the bottom of the bottom are installed with a slope, forming an acute angle with the upper flat surface of the ring, with the top of the acute angle pointing in the direction opposite to the direction of rotation of the moving blades, and in the radial direction the moving blades form a constant gap with the upper flat surface of the ring. (Utility Model Patent RU No. 155627, class A01F 11/04, 2015 - prototype).

The disadvantages of the known threshing device, adopted as a prototype, are its low throughput and the significant complexity of the service.

These disadvantages are due to the following. The low throughput is due to the fact that the technological operation of threshing alfalfa beans, carried out by the known threshing device for alfalfa beans, is performed separately from the technological operation of separating seeds from impurities by a seed cleaning machine and after the operation of threshing beans. In the process under consideration, the threshing of alfalfa beans between the technological operations of threshing beans and separating seeds from impurities is the technological operation of moving the threshed heap to a seed cleaning machine. Separate execution of operations for threshing beans and separating seeds from impurities, as well as the presence of the operation of moving the threshed heap from the threshing device to the seed cleaning machine, reduces the throughput of the known threshing device and increases the complexity of maintenance during operation.

The technical result of the utility model is to increase the efficiency of threshing alfalfa beans.

The technical result is achieved in that in a threshing device for alfalfa beans, including a chamber containing a cylindrical body and a bottom in which movable blades and a cantilever shaft are installed, the chamber bottom is mounted for rotation on the cantilever shaft, forming a gap with the casing, and the movable blades fixed at the bottom, and the chute, according to a utility model, the camera is equipped with an additional camera in the form of a truncated cone, located between the body and the chute and facing its smaller base to the body, peripheral I part of the bottom is made with a downward inclination, and the chute is equipped with a perforated disk fixed under the gap formed by the bottom and the camera body on an elastic element that is rigidly connected to the chute and with the possibility of kinematic interaction with the bottom through the cams fixed on it.

In a preferred embodiment, the threshing device for alfalfa beans, the perforated disk is provided with a ring fixed to its outer upper edge.

In another preferred embodiment, the alfalfa threshing device for alfalfa beans, the peripheral part of the bottom is provided with protrusions.

The novelty of the claimed technical solution is to provide the camera with an additional camera in the form of a truncated cone, located between the body and the trough and facing its smaller base to the body, the peripheral part of the bottom is inclined downward, which allows you to move the gap in which the beans are threshed up . Now it is located not under the bottom, but above the bottom, which provides a place for a perforated disk. This ensures a compact design, and therefore does not increase its material consumption. The location of the gap above the bottom also accelerates the threshing process.

The supply of the gutter with a perforated disk, fixed under the gap, formed by the bottom and the camera body, on an elastic element that is rigidly connected to the gutter and with the possibility of kinematic interaction with the bottom through the cams fixed on it ensures the separation of alfalfa seeds from impurities immediately after their separation from the beans, then is excludes the operation of moving the threshed heap from the threshing device to the seed cleaning machine.

The supply of the perforated disk with a ring fixed on its outer upper edge reduces the possible loss of individual seeds to the exit from the perforated disk along with impurities.

The supply of the peripheral part of the bottom with protrusions intensifies the process of isolating seeds from alfalfa beans.

The essence of the utility model is illustrated by drawings. In FIG. 1 is a schematic cross-sectional view of a threshing device for alfalfa beans, front view; in FIG. 2 is also a local view I, in FIG. one; in FIG. 3 shows a fragment of a perforated disk; in FIG. 4 shows the bottom of the chamber, in dimetry.

The threshing device for alfalfa beans includes a threshing chamber 1 containing a cylindrical body 2 and a bottom 3, on which movable blades 4 and a cantilever shaft 5 are fixed. The threshing chamber 1 is equipped with a loading funnel 6 and a groove 7 (Fig. 1). The bottom 3 of the chamber 1 is mounted rotatably on the cantilever shaft 5, forming a gap with the housing 2, and the movable blades 4 are fixed vertically with their side on the bottom 3. The camera 1 is equipped with an additional camera 8, made in the form of a truncated cone, located between the body 2 and the groove 7. The additional camera 8 faces its smaller base to the body 2. The bottom 3 forms a radially constant maximum clearance H with the body 2. The peripheral part of the bottom 3 made with an inclination downward and forms a gap with the inner surface of the additional chamber 8, including a constant radial minimum clearance h (Fig. 2). The minimum clearance h must satisfy the condition under which the largest-sized seeds of various varieties of alfalfa must pass through it without damage, but the smallest beans of various varieties of alfalfa should not pass through the minimum clearance h without breaking. This condition is satisfied by the interval of gap values h equal to 2.5 ... 5.5 mm. The groove 7 is provided with a perforated disk 9 having through holes 10 and fixed under a gap formed by the peripheral part of the bottom 3 and the inner surface of the additional chamber 8. The perforated disk 9 is mounted on an elastic element 11, which is connected rigidly to the groove 7. The perforated disk 9 is installed with the possibility of kinematic interaction with the bottom 3 using pairwise mounted on it and on the bottom of the cams 12 (Fig. 3). Four pairs of cams 12 are located against each other, which ensures the direction of oscillation of the perforated disk 9 along the vertical axis of symmetry. The perforated disk 9 is equipped with a vibration amplitude tuning mechanism in the form of screws 13. The vibration amplitude is adjusted before operation. Screws 13 restrict the movement of the perforated disk 9 from the bottom, and its upward movement is determined by the geometrical parameters of the cams 12.

The perforated disk 9 is provided with a ring 14 mounted on its outer upper edge (Fig. 1). The peripheral part of the bottom 3 is provided with protrusions 15 (Fig. 4).

The bottom 3 with movable blades 4, mounted on the cantilever shaft 5, is equipped with a drive in rotation 16 (Fig. 1). The threshing chamber 1 is mounted on the frame 17. Under the trough 7 there is an unloading container 18 for seeds or an unloading conveyor (not shown in the diagram). At the exit from the perforated disk 9, a through hole 19 is made in the trough 7 to remove impurities located in the threshed heap and separated from the seeds. Under the through hole 19 is placed a container 20 for impurities.

A threshing device for alfalfa beans works as follows. During the combine harvesting of alfalfa seed crops, the bunker heap including unfrozen alfalfa beans is delivered in stationary conditions to a threshing device for alfalfa beans. Then it is fed into the threshing chamber 1 of the device, through the feed funnel 6 (Fig. 1). The bunker heap under its own weight falls to the bottom 3, where in contact with the surface of the rotating bottom 3 under the action of centrifugal forces created by the rotation of the bottom 3, is shifted to the peripheral part of the bottom 3, made with an inclination downward. Here, the bunker heap entering the bottom 3 surface falls into the gap between the peripheral part of the bottom 3 and the inner surface of the additional chamber 8, and moves along it under the action of the bottom 3 rotation from the entrance having the maximum value H to the output having the minimum value h (Fig. . 2). Due to the friction forces arising in the bunker heap, as well as between the bunker heap and the surfaces of the peripheral part of the bottom 3 and the additional chamber 8, and the deformation of the bunker heap, the alfalfa beans in the heap are destroyed, as a result of which seeds are released from them. Then the seeds, together with small and coarse impurities, under the action of their own weight, enter the oscillating perforated disk 9, where they are exposed to the air flow created by the moving blades 4 and directed above the perforated disk 9 to its outer edge. Alfalfa seeds, under the influence of their own weight, are separated through the through holes 10 of the perforated disk 9, and then, moving along the chute 7, are accumulated in the discharge tank 18. Small and coarse impurities are transported by air through the perforated disk 9 and through the through hole 19 enter the container 20 for impurities.

The use of the utility model will increase the throughput of the threshing device for alfalfa beans and, as a result, increase the productivity of its work, as well as reduce the complexity of maintenance during operation.

Claims (3)

1. A threshing device for alfalfa beans, comprising a chamber containing a cylindrical body and a bottom in which movable blades and a cantilever shaft are installed, the camera bottom is mounted to rotate on the cantilever shaft, forming a gap with the housing, and the movable blades are fixed to the bottom, and trough, characterized in that the camera is equipped with an additional camera in the form of a truncated cone, located between the body and the trough and facing its smaller base to the body, the peripheral part of the bottom is made with an inclination downward, and the trough with abzhen perforated disk under the fixed gap formed bottom and a camera body, an elastic member which is rigidly attached to the gutter, and with the possibility of kinematic interaction with the bottom through the cams mounted thereon. 2. A threshing device for alfalfa beans according to claim 1, characterized in that the perforated disk is provided with a ring mounted on its outer upper edge. 3. The threshing device for alfalfa beans according to claim 1, characterized in that the peripheral part of the bottom is provided with protrusions.

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