RU2121892C1 - Method of seed cleaning and seed cleaning machine - Google Patents

Abstract

FIELD: agricultural engineering. SUBSTANCE: method of seed cleaning according to physical and mechanical properties of seeds comes to delivering initial mixture to sieve pan rigidly secured on vibrating friction flat deck, primary separating on sieve pan, separating of mixture on vibrating friction surface of deck and dividing mixture into fractions by rotating conveyer installed above deck. Rotating conveyor has gripping members - flexible threads acting in direction nonparallel to direction of movement of mixture after which remnants are exposed to action of air stream from air column whose inlet nozzle is mated with fraction remnants receiver. EFFECT: provision of more complete usage of seeds without damage to seeds at separation. 5 cl, 2 dwg

Description

 The invention relates to the field of mechanization of agricultural production, in particular, to methods for cleaning seed from impurities and to machines for cleaning seeds.

 A known method of cleaning seeds with a magnetic powder enveloping rough particles (Kulagin M.S., Soloviev V.M., Zheltov V.S. Mechanization of post-harvest processing and storage of grain and seeds. - M .: Kolos, 1979, p. 67 ) Due to this, weeds and impurities having a rougher surface are attracted to the magnetic drum and stand out from the bulk. The disadvantage of this method is the large waste of seeds of the main culture along with impurities coated with magnetic powder, and these wastes cannot be used anywhere else due to the harmfulness of the magnetic powder to the environment and animals. In addition, since seed purification occurs only according to one physicomechanical property of seeds with different roughness, a significant amount of seeds of another culture with the same degree of seed roughness can get into the purified seeds of one crop.

 A known method of cleaning seeds (Kozhukhovsky I.E. Grain-cleaning machines. - M .: Mashinostroenie, 1974, p. 144 - 145), including the impact on the processed material of the ascending air flow during subsequent separation by size on sieves and on trie cylinders. This method involves the purification of seeds by a set of physical and mechanical properties, thereby achieving a high degree of purification of seeds. But technical seeds, which could be successfully used to prepare, for example, technical oil, etc., also go into irreversible waste.

 A known method of cleaning seeds (A.S. USSR N 1110499, CL. B 08 B 13/00, 1984, prototype), comprising moving the mixture to be cleaned with friction tape while simultaneously applying flexible threads to the mixture that are moved in a direction that is not parallel to the direction of movement of the friction tape . Rough particles are trapped by flexible threads and swept away. The disadvantage of this method is that when sweeping away from the surface of the particles, part of the full seeds of the main culture is captured in waste, resulting in irreversible loss of seeds. In addition, seed cleaning only on one physical and mechanical property does not allow to obtain a high degree of seed cleaning.

 A device for cleaning seeds is known (Certificate for PM N 1642, CL B 07 B 13/00, 02.16.96, prototype) containing a transporting body made in the form of an oscillating friction deck, a feeder for feeding the mixture to be cleaned onto a working surface mounted on a rotating conveyor with flexible threads fixed on it, which move in the working area across the deck and whose length is greater than the distance between the working friction surface of the deck and the surface of the rotating conveyor. This device for cleaning seeds allows you to implement the above technology for cleaning seeds with its inherent disadvantages.

 The claimed invention is aimed at solving the problem of cleaning seeds with a high degree and reduce the loss of seeds, including technical.

The proposed method for cleaning seeds includes the following operations:
1) supply of source material to sieves;
2) purification of seed material on sieves from large and small impurities;
3) the separation of material coarse on sieves on an oscillating friction surface;
4) the separation of the mixture into fractions by exposing it to flexible threads in a direction not parallel to the direction of movement of the mixture;
5) the output of the selected fractions in the receivers of fractions;
6) the impact on waste upstream;
7) multiple return of seed fractions of the main culture with impurities for repeated purification of impurities with flexible threads.

 As a result of the above technology for cleaning the initial mixture, we have three fractions: purified seeds, technical seeds and light impurities.

A positive effect is the purification of seeds with a high degree and the reduction of seed losses, including technical ones, due to the following factors:
1) Three stages of purification of seeds of the main culture according to a set of physical and mechanical properties: on sieves in terms of particle size, specific gravity in a thick vibrating layer, various degrees of roughness when exposed to the mixture with flexible threads, it allows to achieve a high degree of purification of seeds of the main culture. In addition, the specific nature of the deck vibrations (in horizontal and vertical planes at an angle to its longitudinal axis) enhances the effect of seed cleaning.

 2) Not all of the seed material is exposed to the air flow, but only a small part of it (waste), in which all lightweight and rough particles are concentrated by pre-sweeping, as a result of which light impurities and technical seeds — defective and crushed seeds — are easily separated from the waste fraction. main crop, weed seeds. Usually technical seeds go into irreparable loss. The proposed technology for seed cleaning, highlighting technical seeds as an independent fraction, allows the fullest use of the flax seed crop, reducing losses, including technical seeds.

 3) The operation of multiple return of the seed fraction of the main culture with impurities for repeated cleaning with flexible threads contributes to the most complete and high-quality cleaning of seeds of the main culture from impurities.

 To implement the proposed method for cleaning seeds from impurities, a machine design has been developed. The task set for the developer was solved by introducing into the seed cleaning machine, containing a flat friction deck mounted on the base with reflectors along the lateral edges, a drive that informs the vibration decks in horizontal and vertical planes at an angle to its longitudinal axis, a feeder for supplying the mixture to be cleaned to the working surface of the deck, a rotating conveyor mounted above it with capturing elements fixed to it, receivers of fractions rigidly fixed to the deck and located under the feeder p a still mill and an air column installed on the base, the inlet nozzle of which is interfaced with the waste fraction receiver. In addition, in the proposed design, the deck is equipped with three fraction receivers made in the form of trays smoothly interfaced with the deck working surface, and a U-shaped groove containing the middle fraction receiver with the deck working surface in front of the rotating conveyor. A U-shaped gutter is mounted on the base of the machine. Oscillations are communicated to him in the direction opposite to the direction of the oscillatory movements of the deck in both planes.

 The presence of a sieve mill in the machine allows you to pre-clean the seed mixture from large impurities, thereby applying a cleaner material to the vibrating deck compared to the original, providing a higher seed cleaning effect.

 The introduction of an air column into the machine, the inlet nozzle of which is coupled to the receiver of waste fractions, makes it possible to reduce recoverable waste by isolating a fraction of technical seeds.

 The presence of a U-shaped trough, through which the so-called middle fraction of seeds (seeds of the main culture with impurities) is sent for repeated cleaning, enhances the effect of seed cleaning and, therefore, reduces the loss of seeds in the main culture.

 In the proposed design, the machine has three fraction receivers. This number of receivers is due to the cleaning technology that will be described in the next section.

 In FIG. 1 is a diagram illustrating a method for cleaning seeds; figure 2 - machine for implementing the proposed method.

 The technological process of seed cleaning is as follows.

 The initial seed material is fed to the sieve mill, where the initial mass is divided by size and the separation of large and small impurities. Next, the coarse seeds spill out onto the oscillating friction deck. In the process of oscillation of the deck at an angle to the longitudinal axis, both in the vertical and horizontal planes, the coarse seed mass located on it moves at an angle to its longitudinal axis until it stops against the side wall. In this case, normal seeds are concentrated along one side wall, and all rough particles, crushed seeds, sex, "floating up" to the surface of the vibrating layer, are concentrated in the opposite direction and move along the longitudinal axis of the deck, forming a waste layer. Thus, two parallel streams are clearly separated - normal seeds and a waste fraction. Further advancing along the friction surface, both of these flows are exposed to flexible threads in a direction not parallel to the direction of motion of the mixture being cleaned. There is a "sweeping" of weeds, light impurities, defective seeds that "float" to the surface, with flexible threads, while the "sweeping" occurs towards the waste fraction formed as a stream in the previous operation.

 After exposure to the mixture with flexible threads, three fractions are clearly distinguished: pure seeds, the middle fraction - the seeds of the main culture with weeds and impurities and waste. The middle fraction is an intermediate fraction between pure seeds and waste, as if moving from one fraction to another, these are very clogged seeds. Usually this fraction was disposed of as waste. But having subjected it to repeated cleaning, it is possible to avoid the loss of seeds that previously went into irreversible losses. After cleaning with flexible threads, all three fractions under the influence of vibrations continue to advance to the trays - receivers of the fractions, concentrating in them.

 The waste fraction is exposed to an upward air flow, as a result of which we have two new fractions: light impurities and technical seeds - defective, crushed seeds of the main culture. The middle fraction of the seeds is sent for re-cleaning with flexible threads.

 As a result of the described technological process of seed purification, we obtain three fractions: pure seeds, technical seeds and waste.

 The seed cleaning machine consists of a flat friction deck 2 mounted on the base 1 with a reflector 3 along the lateral edges, a feeder 4 for supplying the initial mixture for cleaning, a sieve mill 5, rigidly mounted on deck 2 and located below the feeder 4, mounted above the deck's working surface 2, of a rotating conveyor 6 with capturing elements fixed on it - flexible threads, so that the flexible threads act on the separated mixture in a direction not parallel to the direction of its movement (the best option is perpendicularly), an air column 7 mounted on the base of 1 machine, drive 8, communicating oscillations of deck 2 in horizontal and vertical planes at an angle to its longitudinal axis. With the working surface of deck 2, fractions receivers made in the form of trays are smoothly interfaced: a purified seed receiver 9, a middle fraction receiver 10 and a waste receiver 11. The inlet nozzle of the air column 8 is paired with a waste receiver 11, the middle fraction receiver 10 is coupled to one of the ends П -shaped chute 12, mounted on the base 1 of the machine with the possibility of messages to him of vibrations in the direction opposite to the direction of oscillatory movements of deck 2 in both planes. The second end of the groove 12 is associated with the working surface of the deck 2 in front of the rotating conveyor 6.

 Machine for cleaning seeds works as follows.

 By means of the drive on December 8, oscillations in the horizontal and vertical planes are reported at an angle to its longitudinal axis, the conveyor 6 is rotationally driven, and vibrations in the direction opposite to the direction of the oscillatory movements of deck 2 in both planes are communicated to the U-shaped groove. The cleaned mixture from the feeder 4 is fed to an oscillating sieve mill 5, where large and small impurities are released. From the lower sowing sieve, the seeds are poured onto a flat deck 2 with a friction surface. In the process of vibration of deck 2, the seed mass located on it, which is roughly cleaned with a sieve mill 5, moves at an angle to its longitudinal axis against the stop in the side wall - reflector 3. In this case, normal flax seeds are concentrated along one of the reflectors 3 (in this case, along the right reflector 3 along the movements of the mixture), and all the rough particles, sexually, defective, crushed seeds, "floating up" to the surface of the vibrating layer, are concentrated in the opposite direction and move along the longitudinal axis of deck 2, forming a waste layer. Both of these clearly undivided flows fall under the rotating conveyor 6 with flexible threads fixed to it. The direction of rotation of the conveyor 6 is set so that the threads of the "sweeping" conveyor, acting on the seed stream, would remove ("sweep") the "floating" and "floating" particles of impurities, sex, defective seeds, etc. towards the waste stream, which formed on friction deck 2 in the area between the sieve mill 5 and conveyor 6. As a result of seed cleaning with a “sweeping” conveyor 6, three fractions are clearly distinguished: peeled seeds that are concentrated along reflector 3, clogged seeds of the main culture - as if a transition t pure seed to waste, so-called middle cut, located in the middle of the deck 2 along the axis thereof, and waste materials - are concentrated along the reflector 3 facing away from the flow of treated seed side. All three of these seed fractions are sent to trays 9, 10, 11, respectively. From the tray 11, the waste fraction enters the air column 7, where, under the influence of the ascending air flow, it is divided into technical seeds and a fraction of light impurities. From the receiver 10, the middle seed fraction enters the oscillating trough 12 and is sent for re-cleaning with a "sweeping" conveyor.

Claims (5)

 1. A method of cleaning seeds according to a set of physicomechanical properties, including feeding the initial mixture and separating it on an oscillating friction surface, dividing the mixture into fractions by exposing it to flexible threads in a direction not parallel to the direction of movement of the mixture, and outputting the selected fractions, characterized in that before the initial mixture is fed to the friction surface, it is subjected to preliminary separation on a sieve mill, and after separation of the mixture into fractions with flexible threads, the waste is exposed to air flow.  2. The method according to claim 1, characterized in that after the operation of dividing the mixture into fractions, the seed fraction of the main culture with impurities is returned to the secondary purification of impurities with flexible threads.  3. The method according to claim 1, characterized in that the friction surface is reported oscillations in the horizontal and vertical planes at an angle to its longitudinal axis.  4. A seed cleaning machine, comprising a flat friction deck mounted on the base with reflectors along the lateral edges, a drive informing the vibration deck, a feeder for feeding the mixture to be cleaned onto the deck working surface, a rotating conveyor mounted above it with gripping elements mounted on it, and fraction receivers , characterized in that it is equipped with a rigidly mounted on the deck and located under the feeder sieve mill and mounted on the base of the air column, the inlet nozzle of which is associated with the reception nickname fractions of waste.  5. The machine according to claim 4, characterized in that the deck is equipped with three fraction receivers made in the form of trays smoothly interfaced with the working surface of the deck, and a U-shaped chute connecting the middle fraction receiver with the working surface of the deck before the rotating conveyor and mounted on the base with the possibility of informing him of oscillations in the direction opposite to the direction of the oscillatory movements of the deck in both planes.

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