UA125628U - GRAIN CAREER DEVICE FOR SILO - Google Patents

Abstract

A device for carefully loading grain into the silo, which includes a corrugated loading sleeve with a mechanical drive lift-lowering. In this case, in the outlet cross section of the sleeve is fixed a bell-shaped plate with curved outward edges, a central conical guide, oriented smaller in its base to the inner space of the sleeve, and a circular array of through holes at the bottom.

Description

The useful model belongs to agricultural production and can be used for uniform and careful loading of grain material into bunkers and silos of various types.

A well-known gravity-cascade type vertical conveyor according to the patent for a utility model SHA Mo 86163 |) (МПК ВО7В 13/00) for loading grain, consisting of a vertical conveying channel, formed by a number of overflow devices, which are located one below the other. Overfilling devices are made in the form of a disc with a rim along its perimeter, the surface of the disc is a working surface, the central part of which is made in the form of a cone, and the last part is divided into sectors - overfilling shelves, made flat or with a convexity to meet the movement of the grain. Overflow shelves alternate with through overflow holes,

The conical surface ensures the centering of adjacent disks and the necessary gap between them. Around the circle, the disc has a side board, which adds rigidity to the disc structure and serves to hold the grain and give it directional movement, as well as bulges on the bulk shelves. The side board, like all flat or convex overflow shelves, directs the movement of grain into various overflow holes, and also serves to place fastening elements when assembling discs in a vertical conveying channel.

The disadvantage of the known device is the presence of a vertical conveying channel, which narrows the grain flow entering the silo, leading to intensive grinding of grain among themselves. In addition, the device is difficult to manufacture.

A gravity-cascade type vertical conveyor for loading grain, grain crops and meal pellets into a silo is also known according to the patent for the utility model Sha Mo 83564 (МПК ВО7В 1/00, В07В 13/00), which has a vertical conveying channel formed by a row of truncated cones , which are located under each other and at an angle relative to each other.

The vertical conveying channel is made with a gap between adjacent truncated cones, each upper truncated cone is set against the adjacent lower one and is expanded relative to it with respect to the vertical axis by 180", each truncated cone is made of linear polyethylene, and its inner larger forming surface has the shape of a concave tray.

However, the known device has the following disadvantages:

Zo - The time of loading the silo with grain increases; - there is a high probability of the formation of residues from grinding grain together in the lower part of the silo; - the difficulty of mounting cut cones at the angle of the natural slope of grain of various crops that are laid for storage.

Another device is known according to the author's certificate 5 Mo 1330060 A1 (МПК В 65 о 65/32).

The device consists of a vertically installed cylindrical body with a central loading nozzle. Inside the cylindrical body, truncated cones are installed coaxially along the axis of the loading nozzle, the smaller bases of which are turned with the bases up.

The truncated cones are equipped with horizontal visors and are fixed on vertical posts and suspended from the cylindrical body. In the case of asymmetric placement of the loading nozzle, dowels are installed on the upper bases of the cones.

The disadvantage of the known device is the insufficient reduction of the speed of grain fall, which leads to its injury from falling from a great height onto the base of the silo. The possibility of grinding the grain between itself and the side surfaces of the cut cones should be attributed to the negative.

There is also a known device according to the patent for the utility model Sha Mo 4780, which consists of a vertical cylindrical loading nozzle, under the outlet of which, with the help of brackets, a conical nozzle (or funnel) with a downward-directed smaller end outlet is installed coaxially. The conical joint is installed with a gap between the lower edge of the vertical loading nozzle and its upper edge. Under the conical funnel (funnel) with the help of brackets, a conical funnel with a smaller end hole directed upwards is installed coaxially. The area of the smaller end opening of the nozzle directed upwards is half the area of the output smaller end opening of the nozzle directed downwards, which is smaller than the area of the outlet opening of the loading nozzle.

The main disadvantage of the device for loading a silo or a similar cylindrical shell container with loose material should be attributed to: violation of the integrity of the grain due to the high speed of movement from top to bottom, as well as injury to the grain when it hits the walls of the silo.

The closest analog to the proposed device is a technical tool (pyr//siyemIapasazsadev.so.ik/rgodysiv/gee-TaiI-spshev) for filling large storage volumes with grain material, made in the form of a corrugated sleeve with 60 guides, which can change its length along the vertical axis when the lifting-lowering mechanism is engaged and inside which a continuous row of truncated cones is located one below the other, at an angle to each other.

The disadvantage of the technical means is a complex multi-link design and low productivity due to high resistance during the gravitational displacement of the grain flow in the sleeve.

The analysis of the level of technology carried out by the applicant, which includes a search for patent, scientific and technical and other types of information sources that contain information about analogs of the claimed technical solution of the utility model, made it possible to establish that the applicant did not find an analog that would be characterized by features identical to the essential features technical solution.

The identification from the list of identified analogues of the prototype as the closest to the essential features of the utility model made it possible to identify the set of essential features of the utility model and to outline a set of essential, in relation to the predicted result, corresponding distinctive features in the declared solution, which were found in the formula of the utility model.

The task of a useful model is to create a device for careful loading of grain into a silo, which would ensure mechanical injury of the grain when it collides with the surface-filled space on the bottom or about the bottom of the grain silo during its gravitational movement during the loading period, as well as ensuring an even distribution of the grain mass over the entire filling volume of the silo.

The task is achieved by the fact that in the device for careful loading of grain into the silo, which includes a corrugated loading sleeve with a mechanical lift-lowering drive, in the outlet section of its sleeve, a torus-shaped plate with outwardly curved edges, a central cone-shaped guide is fixed with flexible links to its guides , oriented with its smaller base to the inner space of the sleeve, and a circular array of through holes on the bottom of the plate.

The essence of the useful model is explained by the drawings: in fig. 1 shows a general view of the device in a longitudinal section of a grain silo, in fig. 2 - axonometric section of a torus plate.

The device for carefully loading grain into the silo consists of a corrugated loading sleeve 1, which has on its outer side guides in the form of rings 2 with cables 3 stretched through them, a mechanical drive (not specified) for lifting and lowering

From the sleeve and fixed by flexible links 4 to the guides of the sleeve 1, a torus-shaped plate 5 with outwardly curved edges b, a central cone-shaped guide 7, oriented with its smaller base to the inner space of the sleeve 1, and a circular array of through holes 8 on the bottom 9 of the plate 5.

The device for carefully loading grain into the silo works as follows.

If it is necessary to fill the empty silo with grain, the corrugated sleeve 1 is stretched along the entire length with the lifting-lowering mechanism, lowering it and the torus-shaped plate 5 to the bottom of the silo. Having extended the sleeve 1 to its full length, the grain mass is fed to its upper part, which under the influence of the gravitational field goes towards the bottom of the silo. Reaching the small base of the central cone-shaped guide 7 of the torus plate 5, the grain is distributed and moves in the annular gap between the guide 7 and the inner side of the sleeve 1, while the size of the annular gap constantly decreases as the grain approaches the larger base of the conical guide 7, which allows obtaining an annular grain flow of small cross-section.

Having reached the torus-shaped plate 5, the grain touches its concave surface of the bottom 9 and due to its inertia, sliding along it, flies out of the plate 5 upwards to a certain height H, thus extinguishing the excess kinetic energy, the excess of which would lead to injury upon contact with the bottom of the silo grain and loss of its integrity. The curved edges of the b plate 5 improve the flight of the grain without giving it excessive resistance. A part of the grain that did not have a sufficient speed of movement to leave the plate 5 tangentially to its inner surface falls downwards through the array of holes 8 on the bottom 9 of the plate 5. At the same time, the speed of grain exit from the holes 8 is significantly reduced due to the multiple contact interaction of the grain between itself in the flow and the surface of the bottom 9 of the plate 5. This also helps to reduce the impact force of the interaction of the grain against the bottom of the silo.

The exit of the grain flow from the plate 5 in different ways allows to increase the cross-sectional area of the grain flow moving to the bottom of the silo, uniformly filling its lower part.

With the gradual filling of the silo, the height of the grain layer increases and approaches the torus-shaped plate 5, which, together with the corrugated sleeve 1, is lifted up using the lifting-lowering mechanism, ensuring that the careful loading process takes place already at a higher height from the bottom.

Thus, the use of a torus-shaped plate with a central cone-shaped guide and a circular array of through holes in its bottom in the device for careful loading of grain into the silo helps to reduce the kinematic energy of grain movement, thereby minimizing its possible deformational destruction and reducing the level of injury, and provides an increase in the area of the transverse cross-section of the grain flow, evenly distributing it over the filling surface.

Claims (1)

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