UA27069U - Sieve boot - Google Patents

Abstract

A sieve boot includes a housing, frames with sieves, sloping boards, receivers of separation products, suspensions and an actuator. The frames of sieves in the housing are hingedly mounted with possibility of changing the angle of their inclination to the horizon for example with the aid of screw mechanisms installed on the edges of the frames of sieves and sidewalls of sieve boot.

Description

Description of the invention

The utility model is relevant to technical means for cleaning and sorting seed mixtures, as well as 2 other loose materials by size and can be applied in agriculture, chemical and food industries.

For the separation of any loose materials (in particular, seeds) according to their size, sieve beds with flat sieves, which perform an oscillating movement and have a longitudinal slope of the working surface, have become widespread (1, 2). 70 The process of separation of grain mixtures on sieves of this type, which involves the selection of small grains by sifting them through the holes of the sieve, is possible only if there is a relative movement of the grain along the surface of the sieve. Such a movement can be ensured either by setting the sieve in motion or by changing its position relative to the horizon.

Depending on the type of oscillations, low-speed oscillating working surfaces are distinguished, which are characterized by a relatively large amplitude and low frequency of oscillations |1), as well as vibrating sieves with a relatively small amplitude and high frequency of oscillations |IZY. The first are driven into oscillating motion, usually, from an eccentric or with the help of an inertial vibration exciter, the second - from inertial vibrators, in which vibrations are caused by the rotation of unbalanced loads.

In most machines, the sieve is installed with a constant angle of inclination to the horizon, which varies from 20 to 13". However, due to the fact that the quality of work of fixed sieves is extremely low, they are not used in grain processing machines |4).

Effective separation of loose material on the sieve can be ensured by a combination of a certain amplitude-frequency characteristic of its oscillations and the angle of inclination to the horizon. For each material, as well as individual fractions of the same material, the relationship between these parameters is excellent. Therefore, in 75 sieves with several sieves, this ratio is chosen optimal for the operation of only one sieve out of 8 available in the sieve state, or some rational one - for the entire set of sieves.

This reduces the performance of the grating mill with rigid grating attachment |2) and the quality of material separation as a whole, but due to the number of similar features, this solution is accepted as a prototype.

The useful model is based on the task of improving the quality of separation of loose material on each of the 30 sieves of the sieve stage by creating an optimal ratio of the amplitude-frequency characteristic (Ce) of sieve oscillations and the angle of its inclination to the horizon, as well as increasing the productivity of the separating machine as a whole. at

The task is solved due to the fact that in the well-known design of the grating stage, which includes - the body, frames with gratings, sliding boards, receivers of separation products, hangers and the drive mechanism, in

In accordance with the utility model, the frames with grates in the housing are hinged with the possibility of changing their angle from the slope to the horizon, for example, with the help of screw mechanisms installed on the edges of the grate frames and the side walls of the grate stage.

The essence of the useful model is explained by the drawing where it is shown:

Fig. 1 - Structural scheme of the grating state with two gratings; Z7Z

Fig. 2 - Scheme of the screw mechanism for adjusting the frame with a grate, side view. c The proposed design of the grating stage consists of a housing 71, which is fixed to the separator with the help of hangers 2 "z, and an eccentric drive mechanism Z. Inside the housing 1, frames 4 with upper 5 and lower 6 gratings are hinged. Frames 4 to the sides of the housing 1 are fixed by with the help of screw mechanisms 7, which are installed on the edges of the frames 4, grates 5 and 6, and the side walls of the case 1 of the grate state. 79 The screw mechanism includes a bracket 8, which is rigidly fixed on the edge of the frame 4, a bracket 9, mounted on the outer side of the case side 1, a screw 10 and the lock nut 11. To remove the separated material in the -I grating stage, sloping boards 12 and 13 are placed, and for their collection, separation product receivers 14, 15 and 16 are installed.

Ge") in 250 ways. The dosing device feeds the material to the upper sieve 5. Under the influence of vibrations given to the sieve state by the eccentric mechanism 3, the material moves along the sieve and is divided into two fractions. c Particles of material that are larger than the size of the holes of the sieve 5, moving along the working plane, leave it and get to the receiver 14 (rising fraction). Particles of material smaller than the size of the openings of the sieve 5 are poured through it (passage fraction) and along the inclined board 12 enter the sieve 6. On the 99 lower sieve 6 due to the combined effect of the oscillating mode and the inclination of the sieve to the horizon, the material is also divided into two fractions: the fraction goes to the receiver 15, and the passing through the slop board 13 to the receiver 16.

To ensure effective separation on each sieve 5 and 6, with the help of screw mechanisms 7, the angle of inclination of a separate frame 4 is changed together with the sieves to the horizon. This achieves the optimal 60 ratio of the parameters of the oscillating mode and the angle of inclination to the horizon for each sieve during the separation of any loose material and the separation of the corresponding fraction.

Adjusting the lattice state of the proposed structure for separating other material additionally includes selecting and setting the angle of inclination of frames 4 with lattices 5 and 6 to the horizon. At the same time, for a certain oscillating mode, in the case of separation of material whose components have a more rounded shape, the angle of inclination of the sieve must be reduced, and when separating components that have a flat shape, on the contrary, it should be increased.

This will ensure the optimal ratio of the amplitude-frequency characteristic of oscillations and the angle of inclination to the horizon for each sieve.

Thus, the proposed grating condition will increase the quality of separation of various loose materials into

Each sieve of the sieve state will create prerequisites for increasing the productivity of the separator as a whole.

The proposed solution is adopted for industrial use. In the sources of information, the authors did not find the remaining states and such signs, so we ask you to provide this decision with legal protection.

Sources of information 1. Kozhukhovsky I.E. Grain cleaning machines. Constructions, calculation and design. Ed. the second, 70 peresab. M.: Mashinostroenie, 1974. - 200 p. 2. Krasnychenko A.V., Kletskin M.I., Gafanovych A.A., Chapkevich A.A. Directory of the co-constructor of agricultural machines. VYSKHOM vol. 2 M.: Mashinostroenie, 1961. 8626. 3. Zaika P.M. Dynamics of vibrating grain cleaning machines. M.: Mashinostroenie, 1977. 278p. 4. Klenin N.Y., Popov I.F., Sakun V.A. Agricultural machines (elements of the theory of workers / 5 processes, calculation of regulatory parameters and work modes!). Study guide for village mechanization facts. household - M.: Kolos, 1970. 456p.

Claims (1)

The formula of the invention , и и , и , , , Grate stand, which includes a body, frames with grates, tilting boards, receivers of separation products, hangers and a drive mechanism, which is distinguished by the fact that the grate frames in the body are installed hingedly with the possibility of changing the angle of their inclination to the horizon, for example, with the help of screw mechanisms installed on the edges of the grate frames and the sides of the grate mill. that 2 (o) then that "c) in p - and? ime) -i («c) (o) 3e) 60 b5