RU2018221C1 - Apparatus for separating contaminants from roots - Google Patents

Abstract

FIELD: agriculture. SUBSTANCE: apparatus has inclined S-shaped cleaner with smooth working surface made from material with low friction coefficient. Air flow supply device has lateral flow guides disposed at the sides of conveyor, with guides being disposed at a distance one with respect to the other, which is decreasing from conveyor axis to its edges. Guide ends are bent towards conveyor axis and are disposed uniformly in space between conveyor belt upper curve line and zone, where product falling path goes into vertical path. Air supply device side outer walls are conjugated with feeding conveyor through flexible binders. Upper and lower outer walls of device are disposed in parallel relation one with respect to the other in plane, which is equally spaced between them. This plane extends tangentially to conveyor drum at product discharge line. EFFECT: increased efficiency by providing adequate combination of shape of cleaner working surface and action of front and side air flows. 3 dwg

Description

 The invention relates to agricultural production, and in particular to devices for post-harvest processing and reloading of agricultural products, such as potatoes.

 A device for separating impurities from root crops containing a feed conveyor and an inclined slide, and the angle of inclination of the upper section of the inclined hill is less than the angle of inclination of its lower section.

 A disadvantage of the known device is the damage to the peel and pulp of tubers, since tubers fall from the conveyor belt onto the working surface of an inclined slide and impact on its finger surface.

 The purpose of the invention is the reduction of damage to products.

 The goal is achieved in that the inclined slide is made S-shaped with a smooth working surface of material with a low coefficient of friction, and the device for supplying air flow is made with lateral flow guides located on the sides of the conveyor installed at a distance from each other, decreasing from the conveyor axis to its edges, while the ends of the guides are bent to the axis of the conveyor and are evenly spaced from the line of the upper bend of the conveyor belt to the transition zone of the fall path the vertical walls, the lateral outer walls of the device for supplying air flow are paired with the feed conveyor by means of flexible connections, and the lower and upper outer walls of the device are parallel to each other and to a plane located at equal distances between them and which is tangent to the conveyor drum on the product exit line .

 The location of the lateral air flow guides avoids the impact of tubers on the walls of the device under the influence of frontal air flow. The shape of the inclined slide allows you to take the tubers on their working surface tangential to the path of their fall, which reduces the force of impact. Orientation of the front air flow guides reduces the rate of fall of tubers during overload.

 Figure 1 shows the location of the lateral air flow guides; in FIG. 2 is a side view of the device; figure 3 - orientation of the device relative to the trajectory of the fall of products, such as potato tubers.

 A device for separating impurities from root crops contains a fan 1, an S-shaped inclined slide 2, an upper front air flow guide 3, parallel to it is a front air flow lower guide 4, side rails 5 are arranged parallel to each other and to the conveyor axis 9, the ends of which 6 are bent to the center and are located at the same distance from each other in the interval from the line of the upper bend of the conveyor belt 8 to the zone of transition of the falling product trajectory 7 into the vertical one, at the level of The lines of the upper bend of the conveyor belt 8 are located on the petals 11 of the outer side guides 10 of the lateral air flows directed to the center. The device is positioned in such a way that an imaginary plane 12 parallel to the upper and lower guides of the frontal air flow and dividing the cavity of the frontal duct into equal halves is tangent to the conveyor drum on the product exit line.

 A device for separating impurities from root crops works as follows.

 Separating from the conveyor belt 9, products, such as potato tubers, tangentially fall onto the surface of the S-shaped inclined hill 2. Under the influence of the frontal air flow, impurities are separated from the tubers, and the tubers fall speed decreases from the initial one (the initial speed is equal to the speed of the conveyor belt plus acceleration of gravity, multiplied by the time of fall) to almost zero (from 80-100 cm s to 5-10 cm s). After that, the tubers roll down the S-shaped inclined hill to the embankment of products or the bottom of the loading tank.

 The positive effect of the proposed device is ensured by combining the shape of the receiving working surface of an inclined hill and the impact of frontal and lateral air flows. The contact of the tuber with the working surface of the inclined slide takes place tangentially. Frontal airflow reduces the fall rate of tubers. Lateral air flows directed perpendicular to the axis of movement of the product affect the tubers from the sides. Moreover, as you move down the S-shaped hill, the influence of lateral air flows gradually increases, since the distance between the guides of the lateral air flows increases sequentially from the edges to the center, and the distance between the curved ends is the same. Therefore, the intensity of the lateral air flow increases with distance from the line of the upper bend of the conveyor belt. Due to this, the tubers are not thrown to the sides under the influence of the frontal air flow and do not hit the side walls of the air flow guides.

Claims (1)

 DEVICE FOR SEPARATION OF IMPURITIES FROM ROOF CLIPPER, including a feed conveyor, an inclined slide, a device for supplying air flow, characterized in that, in order to reduce damage to the products, the inclined slide is made S-shaped with a smooth working surface from a material with a low coefficient of friction, and the adaptation for supplying air flow is made with lateral flow guides located on the sides of the conveyor installed at a distance from one another, decreasing from the axis of the conveyor to its about the edges, while the ends of the guides are bent to the axis of the conveyor and are evenly spaced from the line of the upper bend of the conveyor belt to the zone of transition of the product falling trajectory into the vertical one, the lateral outer walls of the device for supplying air flow are coupled to the feed conveyor by means of flexible connections, and the lower and the upper outer walls of the device are parallel to one another and to a plane located at equal distances between them and which is tangent to the conveyor drum on product descent lines.

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