UA32754U - Tier sieve boot with single sieves - Google Patents

Abstract

A tier sieve boot includes a housing with sidewalls, frames with single sieves, which are hingedly installed in the sidewalls with possibility of changing the angle of their inclination to the horizon by means of screw mechanisms, chute boards, chutes, receivers of separation products, suspensions and an actuator. The frames with single sieves in the transverse direction are attached on the axles, one of which is installed in the openings of sidewalls, and another - in the radial grooves of sidewalls with possibility of displacement over the height by means of, for example, screw mechanisms; moreover radial grooves for fastening of the frames are made asymmetrically to adjacent tiers of sieves.

Description

Description of the invention

The useful model refers to the technical means of separating bulk materials by size and can be used in agriculture, food, chemical and mining industries.

For the separation of loose materials (in particular, grain mixtures) in terms of size, sieve beds with single flat sieves, which are placed in several tiers, have a certain angle of inclination of the working surface to the horizon, and carry out an oscillating movement in the direction of the exciting force |11, have become widespread.

The most common are tiered grate mills with single grates, in which all working surfaces 70 are rigidly fixed in the side walls of the case. Among the well-known types of structures of gratings, those in which single gratings are installed with the same angle of inclination, varying from 4 o to 13212, З, as well as those in which the working planes are placed with different angles of inclination to the horizon |1, 3-5) .

For the first type of stated states, the vibration mode chosen as optimal is able to provide effective separation only on one tier of the lattice state and, accordingly, only on one lattice of the existing ones. At 19, at the same time, on other tiers of the sieve stage, the mode of operation of its sieve for the fraction passing through the passage from the adjacent tier is created to be ineffective or ineffective at all. In addition, the set mode allows you to ensure high-quality separation only for a certain seed mixture.

The efficiency of separation of material on grating beds with a variable angle of inclination to the horizon is somewhat higher than for the previous type of beds, but the quality of their separation is limited to a certain culture, and therefore these beds cannot be considered universal in view of the variety of seed materials.

Among other types of tiered lattice looms, those in which frames with lattices can be moved in height, i.e. change their angle of inclination |Z, 6, 71 are also known.

Qualitative separation of the loose material on the working planes of these grating stages is ensured by a combination of the amplitude-frequency characteristics of the oscillations and the angle of inclination of the gratings to the horizon. At the same time, the amplitude and 25 Frequency of oscillations are chosen optimal for a specific material, and the angle of inclination is determined separately for each tier of gratings. In the process of separation, the amplitude-frequency characteristic practically does not change, and the excellent mode of operation of the state is ensured only by changing the angle of inclination of the state gratings. However, the known designs of tiered grate mills with an adjustable angle of inclination of their grates have a rather complex design of adjustment mechanisms, in particular, this applies to rail mechanisms |З, 8), and their use on several tiers of Я 30 leads to an increase in the overall dimensions of the entire separator. Application of other mechanisms of regulation of yuyu

I7, 8) makes it difficult to adjust the lattice state to a given mode of oscillations and increases its complexity, but due to the number of similar features, this solution is accepted as a prototype. She

The useful model is based on the task of improving the quality of separation of loose material on each of the s grates of a tiered grate system with single grates by creating an optimal oscillation mode, simplifying its adjustment due to the use of a mechanism for adjusting the tilt of single grates in height with the simplest design, which does not increase overall dimensions of the separator, and increase the durability of these mechanisms.

The task is solved due to the fact that in the well-known design of the tiered grate bed, which "includes a body with side walls, frames with single grates, which are hingedly installed in the side walls with the possibility of changing the angle of their inclination to the horizon with the help of screw mechanisms, sliding boards, trays , receivers o, c of separation products, suspensions and drive mechanism, in accordance with the useful model of the frame with single

With" grates in the transverse direction are fixed on axes, one of which is installed in the holes of the side walls, and the second - in the radial grooves of the side walls with the possibility of movement in height with the help of, for example, screw mechanisms, and the radial grooves for fastening the frames are made asymmetrically of adjacent tiers of grates.

The essence of the useful model is explained by the drawing, which shows: Fig. 1 - Structural diagram of a tiered and grating state with single gratings, side view; Fig. 2 - Structural diagram of a tiered lattice structure with km single lattices, top view.

The proposed design of the grating stage includes a body 1 with side walls 2, which are attached to the separator bed (not shown) with the help of hangers З, an eccentric drive mechanism 4 and a loading 50 hopper 5 with a dosing device 6. Inside the body 1, in the side walls 2, frames 7 are mounted with single grids 8 and 9. Grids 8 and 9 are installed on axes 10-13, which are located in the transverse direction relative to the sidewalls 2. Axes 10 and 12 are fixed in the holes, and axes 11 and 13 - in the radial grooves of the sidewalls 2. At the same time radial grooves for fastening frames with working planes are made asymmetrically of adjacent tiers of gratings 8 and 9.

At the ends of each axle 10, 12 and 11, 13, hinges 14 and 15 are installed, respectively, on one side 99 of which pins 16 are placed. Axles 10 and 12 of frames 7, grates 8 and 9 are fixed from the outside of side walls 2 with a lock nut 17 and a washer 18.

At the ends of axes 11 and 13, metal plates 19 with holes for moving frames 7 with single sieves 8 and 9 in height are attached to the pins using, for example, screw mechanisms 20. The latter are fixed to the side walls 2 with the help of hinges 21. To remove the separated grain mixture in slatted boards 22 and 23, as well as trays 24, 25 and 26 are attached to the tiered 60 sieve mill. Receivers 27, 28 and 29 are installed to collect the material screened on sieves 8 and 9.

The process of separation of loose material on single sieves of the proposed sieve state occurs as follows. From the hopper 5, the initial mixture is fed to the sieve 8 of the upper tier by the dosing device 6. Under the influence of vibrations transmitted to the body 1 of the sieve stage from the eccentric mechanism 4, the material moving along the sieve 8 is divided into two fractions. Particles of the mixture, which in terms of size are larger than the sizes of the openings of the sieve 8, moving along the working plane of the sieve stage, descend from it and are directed to the receiver 27 through the tray 24 (the ascending fraction of the upper tier of the sieve 8). Particles of material that are smaller than the size of the holes of the sieve 8 pass through it (the passage fraction of the upper tier) and along the sloping board 22 enter the sieve 9 of the lower tier. On this sieve, due to the establishment of an excellent angle of inclination of the working plane to the horizon in relation to the upper sieve and the combined effect of the amplitude and frequency of oscillations, an excellent oscillation mode is created, which ensures a high-quality separation of the material that enters here from the upper sieve, again into two fractions: the step fraction of the lower sieve 9 is directed to the tray 25, and then to the receiver 28; passing fraction - along the sloping board 23 - to the tray 26, and from it to the receiver 29. 70 To ensure effective separation of the material, to simplify the adjustment of the angle of inclination of the sieves and to reduce the laboriousness of setting up the specified oscillation mode on each tier of the separator, frames 7 with sieves 8 and 9 are installed on axes 10, 12 and 11, 13 using hinges 14 and 15, respectively. At the same time, the axes 10 and 12 of each sieve are fixed relative to the side walls 2 and remain stationary relative to the body 1 of the sieve stand. The variable angle of inclination of the gratings 8 and 9 is provided by moving the working planes only in /5 radial grooves, which are made in the side walls 2 and have an asymmetric arrangement in relation to the adjacent tiers of the gratings. The movement of the sieve in height and the setting of an excellent angle of inclination for a separate sieve is created with the help of, for example, screw mechanisms, which are hingedly fixed on the sides of the 2 sieve stand. In this way, the optimal mode of operation of a separate sieve of a tiered sieve state is achieved during the separation of any loose material and the separation of certain components from a specific fraction.

Adjusting the grating state of the proposed design for separating other material additionally includes determining and setting the angle of inclination to the horizon of the frames 7 separately for each grating 8 and 9. At the same time, in accordance with the selected optimal amplitude-frequency characteristic in the case of separating material whose components have a predominantly rounded shape, the angle of inclination of the sieve to ensure high-quality separation is reduced, and when separating components with a flat shape, on the contrary, it is increased.

Thus, the proposed tiered grating condition will not only improve the quality of separation of loose materials, the components of which have different sizes and shapes, but will also significantly reduce the laboriousness of setting up the separator for a given oscillation mode due to the simplified setting of a variable angle of inclination for each sieve under the conditions of separation of different types of loose material, the components of which are significantly different, and will create prerequisites for increasing the productivity of the separator as a whole. At the same time, the introduction of an asymmetric arrangement of radial grooves with screw mechanisms for adjusting the position of the grates in height will help reduce the overall dimensions of the grate state and increase the durability of the adjustment mechanisms. In addition, io) the use of screw mechanisms will additionally reduce labor costs for lifting each sieve when re-adjusting the angle of inclination of the working plane of the separator.

The proposed solution is acceptable for industrial use. In the sources of information, the remaining estates from

The authors did not find such signs in Зз5, so we ask that this decision be given legal protection. with

Sources of information: 1. Kozhukhovsky I.E. Grain cleaning machines. Constructions, calculation and design. Ed. the second, processing. - M.: Mashinostroenie, 1974. - 200 p. 2. Bushuev N.M. Semen cleaning machines!. Theory, construction and calculation - Sverdlovsk: MASHGIZ, 19652. - « 238p. - with Z. Gladkov N.G. Grain cleaning machines. - L.: UPP Lensovnarkhoz, 1961. -368p. 4. Ulrich N.N. Mechanization of seed preparation and storage. Collection of translations and reviews of foreign literature / Under the editorship. I.M. Spichkina - M.: Izd. Agricultural literature, magazines and posters, 19652. - 4726. 5. Gortinsky V.V., Demskyi A.B., Borvbiskin M.A. Separation processes at grain processing enterprises. - M.: Kolos, 1980. -304p. b. Golovchuk A.F., Marchenko V.I. Orlov V.F. Operation and repair of agricultural machinery: ko Textbook: U Z kn. - Kn. 2. Combine harvesters / Ed. A.F. Golovchuk - K.: Gramota, 2003. - 320p. -1 7. Utility model patent Mo27069 IPC 807813/00. Lattice condition. Bakum M.V., Manchinskyi Yu.O., Horbatovskyi O.M. - Application 06/25/2007; Publ. 10.10.2007, Bull. Mo16 -4s. 1 8. Horbatovsky O.M. Analysis of the mechanisms for regulating the inclination of the grates of grate looms // Bulletin of the Kharkiv National Technical University of Agriculture named after P. Vasylenko. Issue 59. "Mechanization of agricultural production". - Volume 1.- Kharkiv: Publishing house of the FOP V Chervyak, 2007, p. 20-27.

Claims (1)

The formula of the invention is a tiered grate machine, which includes a body with side walls, frames with single grates, which are hingedly installed in the side walls with the possibility of changing the angle of their inclination to the horizon with the help of screw mechanisms, into sliding boards, trays, receivers of separation products, hangers and a drive mechanism, which differs in that the frames with single gratings in the transverse direction are fixed on axes, one of which is installed in the holes of the sidewalls, and the other - in the radial grooves of the sidewalls with the possibility of movement along height using, for example, screw mechanisms, and the radial grooves for fastening the frames are made asymmetrically to adjacent tiers of grates. b5