RU2399573C1 - Self-cleaning screw - Google Patents

Abstract

FIELD: transport. ^ SUBSTANCE: screw 5 fitted inside case 1 in shaft 4 has bores arranged all around its edges to receive nylon thread bundles 7 consisting of three parallel threads passed through said bores in triple thread manner. ^ EFFECT: reduced damage of cereals in transportation, longer life. ^ 4 cl, 3 dwg

Description

The invention relates to hoisting and transport engineering and can be used in agricultural for moving lightly injured seeds of grain crops.

A known design of the working body of a screw conveyor (invention SU No. 1613404 A1), comprising a hollow shaft and a spiral with a brush element. The hollow shaft is made of corrugated from elastic plastic with the arrangement of the corrugations along a helical line, and the spiral is made with a cavity of the shaft and curly sockets for accommodating brush elements. A disadvantage of the known working body is the complexity of the design of the manufacture of fasteners, the high complexity of its manufacture, the high cost of fastening materials. In the process of moving, the working surface of the screw conveyor has a physical effect on the material (shock loads, pinching of material particles in the gap between the moving part of the screw and the stationary casing), which determines the amount of mechanical damage to the transported material. In addition, the end surfaces of the brush elements injure the seeds.

A known design of the working body of the screw (invention SU No. 1407870 A1), including a flat flexible tape, along the longitudinal edges of which are made pocket-drawstring, equipped with a guide wire. The disadvantages of the known working body is the fact that the screw does not provide self-cleaning design when switching from one culture to another, small energy losses. In addition, a drawstring pocket with a guide wire injures the seeds.

The objective of the invention is the provision of self-cleaning structures in the transition from one culture to another.

The technical result is a reduction in seed injury, an increase in the durability of the working body and simplification of the design.

The technical result is achieved by the fact that in the working body of the self-cleaning screw, including loading and unloading nozzles, a cylindrical casing in which the hollow shaft and the screw are wound thereon, holes are provided along the perimeter of the latter with nylon threads fixed in them, consisting of three parallel threads, skipped through holes as a three-way thread.

The outer diameter of the screw can be, together with turns of nylon threads, equal to the inner diameter of the casing.

The winding of nylon threads can be a knot forming by melting nylon threads, while the diameter of the hole is larger than the diameter of nylon threads d _holes = (1.3 ... 1.5) × d _threads , the diameter of the node is larger than the diameter of the hole d _holes <d _node , the winding pitch is half the gap between the screw and the casing.

Nylon threads on the screw can be located hanging freely between the turns of the screw with the possibility of touching the wall of the casing of the device.

Ensuring self-cleaning structure during the transition from one culture to another is achieved by minimizing the gap between the casing and the screw.

Reducing injury to seeds is achieved by the fact that nylon threads do not have hard end edges, and a smooth rounded surface of nylon threads comes into contact with the seeds. The increase in durability during transportation of grain seeds is achieved by the fact that the screw is equipped with nylon threads hanging freely between the turns of the screw with the possibility of touching the wall of the casing of the device. Increased durability is achieved due to lower structural rigidity. Simplification of the design is achieved due to the simplicity of fastening nylon threads in the hole with their subsequent melting into a node.

Figure 1 schematically shows a self-cleaning screw, General view; figure 2 - the location of the winding threads, figure 3 is a section aa, the fastening of nylon threads.

The working member of the auger includes a cylindrical casing 1 with a loading nozzle 2 and an unloading nozzle 3. In the casing 1 there are: a hollow shaft 4 and a screw 5 mounted on it. Apertures are made around the perimeter of the screw 5 6. Nylon threads 7 consist of three parallel threads, zigzag-skipped through hole 6 as a three-way thread. Nylon threads 7 round the edges of the screw 5 and rotate together with the shaft 4 and the screw 5. The step of winding the threads (P) is equal to half the gap between the screw and the casing. The diameter of the hole 6 is larger than the diameter of the nylon threads 7 and is selected from the CONDITIONS: d _holes = (1.3 ... 1.5) × d _threads .

After each hole on the end wall 10 of the screw, three parallel nylon threads 7 form a knot 8 due to their melting. Knots of winding nylon threads do not allow them to spread. The diameter of the node 8 is larger than the diameter of the hole 6: d _holes <d _node .

When moving material that requires the greatest preservation (for example, seeds), nylon threads 7 provide "soft" conditions for the interaction of seeds with a screw. The screw 5 with nylon threads 7 on the front wall is loaded 9. The screw 5 with nylon threads 7 on the end wall is unloaded 10. The conditions for transporting seeds of grain crops are improved, the force effects on the seeds are softened due to the continuous shape of nylon threads 7, consisting of three parallel threads. The gap between the outer diameter of the screw 5 together with the turns of the threads and the inner diameter of the casing 1 is selected to a minimum, to zero.

Self-cleaning screw works as follows.

The grain mixture (material) enters through the loading pipe 2 into the casing 1 and is transported by the screw 5 to the discharge pipe 3. During operation of the working element of the screw, the supplied mass of bulk material (seeds) is moved by the screw 5 in a rotational-translational motion. Nylon threads, consisting of three parallel threads, form their own spiral and facilitate the movement and mixing of the material.

Nylon threads, due to the non-rigid fastening of the threads, reduce the physical impact on the material (shock loads, pinching of material particles in the gap between the moving part of the screw and the fixed casing), which determines the amount of mechanical damage to the transported material. The centrifugal force acting on the nylon threads and directed away from the hollow shaft 4 is balanced by the reaction of the casing through the parts of the turns of the threads. If the nylon threads are torn during operation, the functions of mixing and moving the material are provided by neighboring sections of the winding, which are rigidly fixed by a knot, preventing them from spreading.

Claims (4)

1. The working body of the self-cleaning screw, including loading and unloading nozzles, a cylindrical casing in which a hollow shaft and a screw are wound around it, characterized in that holes are provided along the perimeter of the screw with nylon threads fixed in them, consisting of three parallel threads, skipped through holes as a three-way thread. 2. The working body according to claim 1, characterized in that the outer diameter of the screw along with the turns of nylon threads is equal to the inner diameter of the casing. 3. The working body according to claim 1, characterized in that after each hole on the end side of the screw, three parallel nylon threads form a knot due to their melting, which prevents them from splitting, and when the nylon threads break, the adjacent functions are provided by the neighboring sections of winding, while the diameter of the hole is larger than the diameter of nylon threads d _holes ⁼ (1.3 ... 1.5) × d _threads , the diameter of the node is larger than the diameter of the hole d _holes <d of the _node , the winding pitch is half the gap between the screw and the casing. 4. The working body according to claim 1, characterized in that the screw is equipped with nylon threads hanging freely between the turns of the screw with the possibility of touching the wall of the casing of the device.

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