RU66984U1 - PNEUMATIC SORTING TABLE - Google Patents

Abstract

The utility model is intended for post-harvest treatment of seeds of agricultural crops. The device comprises a housing 1, a dividing deck 2, a vibration frame 3, pendants 4, a tilt-up frame 5, a mechanism 6 for adjusting the longitudinal angle of the deck, a mechanism 14 for adjusting the transverse angle of the deck, drive 7, an electric motor 16, a fan 17, a counterweight 12, pivotally connected to a lifting and swinging frame using suspensions 13, a metering loading device 15 with a vibratory feeder. The lifting and swinging frame 5 of the table is pivotally mounted on one side of the housing 1, and on the other, connected to the mechanism 6 for adjusting the longitudinal tilt angle of the deck. The drive 7 consists of an eccentric shaft 8 mounted on a tilt-and-turn frame, a connecting rod 9, connected with a vibro-frame and with the help of an eccentric sleeve 10 with a shaft 8, rods 11 of a counterweight. The length of the suspensions 13 of the counterweight is equal to the length of the racks 4 of the vibration frame. The connecting rods 9 of the vibration frame and the counterweight rod 11 are located perpendicular to the posts 4 and suspensions 13, respectively. Using the utility model to ensure plane-parallel movement of all points on the deck surface when changing the angle of the longitudinal inclination of the deck during operation and, as a result, improving the quality of sorting. 2 of FIG.

Description

The utility model relates to agricultural machinery, in particular to equipment designed for post-harvest treatment of seeds of agricultural crops.

There are a large number of pneumatic sorting tables (PSS) used in agricultural production for seed preparation. All of them, regardless of their design and technological schemes, include the following main components: a deck with an air-permeable surface, an aerodynamic system, a vibration drive mechanism, and fraction receivers.

All PSS designs can be divided into classes: depending on the method of supplying the air flow to the deck (discharge and vacuum), and on the device of the deck itself (dividing surface without reefs or with reefs located across the movement of the material), and on the device for vibrating the deck into oscillatory motion (with an eccentric self-balancing mechanism and with counterweights), etc. Not only the durability of the table, but also the quality of separation depends on the design of the vibrodrive. Sometimes the insufficient accuracy of manufacturing machine designs and the relatively low quality of the used structural materials in domestic MSS make it difficult to use them in agriculture to separate such a “delicate” material as seeds.

Closest to the claimed PSS is the well-known pneumatic sorting table of the PSS-0.2 brand, produced by GSKB Zernoochistka OJSC and used when conducting work in breeding and primary seed production (see "Technological Basics of Using Pneumatic Sorting Tables in Agriculture", Russian Academy of Agricultural Sciences, Moscow - 2003, p.24-26).

The model PSS-0.2 consists of a base, a deck, a supporting frame, an eccentric shaft with a frame, a housing, a fan, a filter, a rack, a hopper with a feeder, seed collectors, buckets, a control panel and an electric motor, on the shaft of which a V-belt variator is mounted, which through an intermediate shaft connected to an eccentric shaft. The supporting frame (vibro-frame) is connected through the connecting rod to the eccentric shaft and rests on the plates (racks), which in turn rest on the eccentric shaft frame (lift-swing frame), which on one side is supported by the axis on the table body and connected to the other with the strap of the mechanism for adjusting the tilt of the frame, and therefore the deck, in the longitudinal direction. To balance the oscillating support frame with the deck, the load (counterweight) is articulated on the frame,

which is connected to the shaft through the connecting rod (rod) and eccentric bushings. The casing is the air chamber of the sorting table. Tightness of the case is created by a rubber gasket and fabric.

The disadvantage of the prototype was revealed during its operation: the separation quality is not high due to the appearance of "disturbing" forces acting on the particles of the sorted material when the deck position changes during table operation due to the fact that this does not ensure plane-parallel movement of all points decks in space, necessary to ensure layer-by-layer movement of the material without mixing its layers.

To clarify this, the physical principles of separation are considered. Because pneumatic sorting table separates the material but a set of features. dominating among which are density, dimensional characteristics, particle shape, etc. .. and has six technological interdependent adjustments (adjusting the flow of material to the deck, adjusting the amplitude of the deck, adjusting the direction of the deck, adjusting the pitch of the deck, adjusting the transverse angle tilt the deck, adjust the speed of the air flow and the oscillation frequency of the deck), then the selection of the optimal parameters is quite a challenge. In order to achieve the most effective work of the table, it is necessary to correctly combine these closely related adjustments and this must be done in the process of working the table. The quality of separation to a large extent depends on the distribution of the material across the deck, which is determined by the magnitude of its tilt angles in the longitudinal and transverse directions. So the transverse angle of the deck determines the thickness of the layer of processed seeds. With an increase in this angle, the rate of descent of the material from the deck increases, as a result of which the thickness of the material layer decreases, and, conversely, with a decrease in this angle, the thickness of the material layer increases. The intensity of "floating" of light particles of the processed material on the surface of the layer and immersion of heavy particles significantly depends on the thickness of the layer. Therefore, during the operation of the table, it is necessary to pay attention to ensure that there is no “unloading” of material on the deck surface, and also to ensure that the layer thickness is not too small (with a small thickness of the material layer, its particles are not redistributed) - and on time adjust this angle. The angle of the longitudinal inclination of the deck provides rolling pop-up light particles of material in the direction of inclination, i.e. in the opposite direction to the movement of layers consisting of heavier particles in contact with the working surface of the deck. Increasing the longitudinal pitch of the deck reduces the speed of material transport. At

an excessively large angle of inclination of the deck in the longitudinal direction, heavy seeds will fall into the collectors for light seeds, and with a small value of this angle the opposite phenomenon is observed. During operation of the table, to optimize the separation process, it is necessary to change the inclination angle of the deck in the longitudinal direction. But just as in any system that has many parameters depending on each other and a change in at least one of them entails the need to change the others, so in the MSS: a change in the pitch of the deck leads to a change in the directional angle of the deck, i.e. the angle at which the pushing force transmitted to the deck from the drive shaft acts on the material. This force is decomposed into horizontal and vertical components, under the action of the first of which the material moves but the deck along its surface, the second component of the singing force, together with the action of the air flow, promotes the separation of the material. So. a change in the directivity angle of the oscillations leads 1 to a change in the ratio of the components of the force acting on the deck. In addition, these changes disrupt the balance of two balancing masses - the counterweight and the deck, as a result of which the plane-parallel movement of the material is disturbed and a twisting moment is applied to the particles. All this worsens the delamination process and, ultimately, the quality of sorting. The reason is in the imperfect design of the vibrodrive: in the mutual arrangement of its elements and their parameters.

The task solved by the utility model is to improve the quality of sorting.

The purpose of the utility model is to ensure plane-parallel movement of all points on the deck surface when the longitudinal angle of the deck changes during the operation of the table.

The technical result is achieved by the fact that in the known pneumatic sorting table, comprising a housing, a dividing deck, the supporting frame of which is made in the form of an air distribution honeycomb surface, the deck being placed on a vibration frame mounted using racks on a table lifting and turning frame, which is fixed on one side pivotally on the body, and on the other, it is connected to the mechanism for adjusting the longitudinal inclination of the deck and on which the load is pivotally mounted - a counterweight to balance the oscillating deck , a drive consisting of an eccentric shaft mounted on a lifting and swinging frame, a connecting rod connected with a vibrating frame, rods connected with a counterweight and, through eccentric bushings, with a shaft, as well as a mechanism for adjusting the transverse tilt angle of the deck, a metering loading device with a vibratory feeder, an engine with adjustable speed, a fan forcing air under the deck, while the casing is a sealed air chamber of the table, according to a utility model

connected to the lifting-and-turning frame of the table with pendants, the length of which is equal to the length of the struts of the vibration frame, and the connecting rod of the vibration frame and the traction of the counterweight are perpendicular to the struts and suspensions, respectively, while the eccentric bushings are made to rotate relative to the shaft, providing a smooth change in the eccentricity and, accordingly, the amplitude of vibration of the vibration frame , the counterweight is made with adjustable weight, the table body, the vibrating frame and the deck are connected by airtight flexible sleeves, and a sealed air I carried the camera with a cross section increasing from the fan to the frame of the air distribution surface of the deck.

A comparative analysis of the claimed utility model with the prototype allows us to conclude that the claimed device differs from the known one by the connection between the elements and the form of its execution (the counterweight is connected to the lifting-and-turning frame of the table by means of suspensions, the length of which is equal to the length of the frame racks, and the connecting rod of the vibration frame and the counterweight rods are perpendicular to the uprights and suspensions, respectively, while the eccentric bushings are rotatable relative to the shaft, providing a smooth change of the eccentric versity and accordingly oscillation amplitude vibroramy counterweight configured with adjustable weight hermetic air chamber is formed with a cross section increasing from the fan to the frame of the air distribution surface of the deck and body section, and a deck coupled vibrorama airtight flexible sleeves). Thus, the claimed technical solution meets the criteria of patentability NOVELTY.

The claimed technical solution meets the patentability criterion INDUSTRIAL APPLICABILITY, because it can be used in the field of agriculture, in particular - agricultural engineering and used for post-harvest seed treatment.

The essence of the utility model is illustrated by the drawings: in Fig. 1, a general view of the inventive table is schematically presented, in Fig. 2 is a kinematic diagram of the device.

Pneumatic sorting table includes a housing (bed) 1, which is a sealed air chamber of the table, a separating deck 2, placed on the vibrating frame 3, mounted using racks 4 on the lifting and swinging frame 5 of the table, which is mounted on one side pivotally on the housing, and with the other is connected to the mechanism 6 for adjusting the longitudinal inclination of the deck, the drive 7, consisting of an eccentric shaft 8 of the connecting rod 9 mounted on a lifting and turning frame, connected to a vibro-frame and using an eccentric sleeve 10 with a shaft, rods 11, counterweight 12, pivotally connected by means of suspensions 13 with a pivoting

a frame, a mechanism 14 for adjusting the transverse angle of inclination of the deck, a metering loading device 15 with a vibratory feeder, an engine 16 with an adjustable rotation speed, a fan 17 forcing air under the deck, while the length of the counterweight suspensions 13 is equal to the length of the struts 4 of the vibration frame, the connecting rod 9 of the vibration frame and the rod 11 counterweights are perpendicular to struts 4 and suspensions 13, respectively. In this case, the eccentric bushings are made with the possibility of their rotation relative to the shaft, providing a smooth change in the eccentricity and, accordingly, the vibration amplitude of the vibration frame, the counterweight is made with adjustable mass, the sealed air chamber is made with a cross section growing from the fan to the frame of the air distribution surface of the deck. and the table body, the vibration frame and the deck are connected by airtight flexible sleeves 18.

Pneumatic sorting table works as follows. The source material is poured into the hopper of the metering loading device 15, from where it is fed by a vibrating feeder to deck 2, which performs reciprocating movements. When moving on deck 2, the seed layer is penetrated from bottom to top by an air stream, which is pumped by the fan 17 into the air chamber of the table, which is the internal space of the casing 1, the tightness of which is ensured by the fact that the casing 1 of the table, vibration frame 3 and deck 2 are connected by airtight sleeves 18. Under the combined action of the decks 2 and air flow oscillations, the seed layer goes into a fluidized state in which particles are redistributed. Heavy seeds fall into the lower layers and are transported to the raised end of the deck, while light seeds float up, move across the deck and go down at the beginning. An intermediate fraction of seeds descends from the middle part of the unloading edge of the deck, physically-mechanical properties close to the starting material.

During the operation of the table, the characteristics of the material entering the deck are constantly changing, which makes it necessary to constantly adjust the table to improve the quality of sorting, i.e. changes in adjustable parameters. Thanks to the claimed design, the direction of the acting forces on the particles of the material to be sorted remains unchanged, i.e. table adjustment does not cause the appearance of "disturbing" forces acting on the material. This is ensured by the fact that the length of the suspensions 13 is equal to the length of the uprights 4, with the help of which the vibration frame 3 (with the deck 2 placed on it) is mounted on the lifting and swinging frame 5, and the connecting rod 9 of the vibration frame 3 and the rod 11 of the counterweight 12 are located perpendicular to the struts 4 and the suspensions 13 respectively.

When changing the longitudinal angle of the deck 2 during operation of the table, all points of the working surface of the deck carry out plane-parallel movement in

space, which, in turn, provides layer-by-layer movement of the shared material without mixing the layers.

Based on the foregoing, the claimed combination of features of the device ensures the achievement of the goal and the solution of the task.

Claims (5)

1. Pneumatic sorting table, comprising a casing (bed), a dividing deck, the supporting frame of which is made in the form of an air distribution honeycomb surface, the deck being placed on a vibration frame mounted using racks on a table lifting and swiveling frame, which is pivotally mounted on one side of the table and, on the other hand, it is connected to a mechanism for adjusting the longitudinal angle of the deck, and on which a counterweight load is pivotally mounted to balance the oscillating deck, a drive consisting of a lift o-swivel frame of the eccentric shaft, connecting rod connected to the vibro-frame, rods connected with a counterweight and through eccentric bushings with a shaft, as well as a mechanism for adjusting the transverse tilt angle of the deck, a metering loading device with a vibratory feeder, a variable speed motor, an air blower fan under the deck, while the casing is a sealed air chamber of the table, characterized in that the counterweight is connected to the lifting and swinging table frame by pendants, the length of which is equal to the length of the struts of the vibration frame, it vibroramy connecting rod and the counterweight rods arranged perpendicularly to the uprights and suspensions respectively. 2. The table according to claim 1, characterized in that the eccentric bushings are rotatable relative to the shaft, providing a smooth change in the eccentricity and, accordingly, the vibration amplitude of the vibro frame. 3. The table according to claim 1, characterized in that the counterweight is made with adjustable weight. 4. The table according to claim 1, characterized in that the table body, the vibration frame and the deck are connected by airtight flexible sleeves. 5. The table according to claim 1, characterized in that the sealed air chamber is made with a section growing from the fan to the frame of the air distribution surface of the deck.