RU235765U1 - Screen separator - Google Patents

Abstract

Utility model object: screen separator. Application area: agricultural production, where devices for cleaning, separating and sorting grain, seeds and other bulk materials are used. The essence of the utility model: in a screen separator, including a loading device, a concave screen with a surface in the form of a brachistochrone with working channels, which are created by guide elements, and receivers for separated fractions, the concave screen is equipped with a vibrator, and the guide elements of the concave screen are made in the form of an angle profile, create wedge-shaped channels expanding towards the outlet, for example, due to a decrease in their cross-section. Technical result: the throughput of the separator increases and the quality of separation improves.

Description

The utility model pertains to the processing industry, in particular to equipment for separating bulk materials, in this case for cleaning and sorting grain and its processed products, and can also be used in other areas for the specified purposes.

A vibration separator is known, including a loading device, a friction separating surface, a vibration exciter and product receivers [Patent RU No. 2018383. Vibration separator. IPC B07B 13/11 dated 30.08.1994].

The disadvantage of such a separator is the low specific productivity of its friction surface, due to the irrational movement of the processed material, which is characterized by an increase in speed beyond the permissible values.

A known screen separator, including a loading device, a screen concave in the longitudinal vertical plane with working channels, which are created by guide elements of a convex profile and fraction receivers [Patent of Ukraine without examination, in essence. No. 24700 A. Screen separator. IPC B07B 13/04 dated 04.08.1998].

The disadvantage of such a separator is the low specific productivity of its screen surface, due to the irrational movement of the processed material, which is characterized by an increase in speed beyond the permissible values, which leads to clogging of the working holes of the screen, especially with cylindrical particles.

A known screen separator, selected as a prototype, includes a loading device, a concave screen with a brachistochrone surface with working channels created by guide elements and receivers for separated fractions [Patent of Ukraine No. 101590. Screen separator. IPC B07B 13/04 dated 25.09.2015. Bulletin No. 18].

The disadvantage of such a separator is the low specific productivity of its screen surface due to the inconsistency of the speeds of movement of particles in the form of a cylinder and a ball, which leads to clogging of the working openings of the screen, especially by particles in the form of a cylinder.

The technical result of the proposed utility model is an improvement of the screen separator due to the modernization of the design of the concave screen and the implementation of its guide elements in the form of an angle profile, creating wedge-shaped channels expanding towards the outlet, as well as equipping it with a vibrator, which ensures an increase in the throughput capacity of the separator and an improvement in the quality of the process due to the coordination of the speeds of movement of particles in the form of a cylinder and a ball along the surfaces of the angle profile.

The technical result is achieved in that in a screen separator, including a loading device, a concave screen with a surface in the form of a brachistochrone with working channels, which are created by guide elements and receivers for separated fractions, according to the utility model, the concave screen is equipped with a vibrator, and the guide elements of the concave screen are made in the form of an angle profile, creating wedge-shaped channels that expand towards the outlet.

This combination of essential features, such as the execution of the working surface of the concave sieve in the form of wedge-shaped expanding channels of the angle profile together with the action of the vibrator, will ensure the intensification of the separation of particles in the form of a cylinder, which allows to increase the throughput capacity of the separator and the quality of the separation process.

The utility model is illustrated by drawings:

in fig. 1 shows a diagram of a sieve separator;

in fig. 2 - plan view of the sieve in FIG. 1;

Fig. 3 - cross-section of the sieve along A - A in Fig. 1.

The separator consists of a loading device, which includes a tray 1 and a dosing roller 2, a sieve 3, and receivers of separated fractions 4, 5 and 6.

The sieve 3, made in the form of a concave grating, has a surface 7 in the form of a brachistochrone and contains guide elements 8, assembled (fastened) by one end on the axis 9 with intermediate washers, which are placed between the sidewalls 10 and fastened with a nut. The guide elements 8 are made in the form of an angle profile, creating wedge-shaped channels 11, expanding towards the outlet. The sieve 3 is equipped with a vibrator 12.

The separator operates as follows.

The processed material enters the tray 1, from where, with the help of the dosing roller 2, which rotates, it is fed in a thin layer at a given speed onto the concave working surface 7 of the vibrating screen 3. When the processed material moves along the working surface 7, made in the form of a brachistochrone, its small particles, close to the shape of a ball, under the action of gravity and centrifugal forces are sifted through wedge-shaped channels 11 and enter receivers 4 and 5. Large particles, which are closer in shape to cylinders, moving along the surfaces of the corners, are oriented with their larger axis along the wedge-shaped channels 11, and go down to receiver 6. Due to the expansion of the wedge-shaped channels 11 in the direction of movement of the separated material, the passing particles in different sections of the screen differ in size. Therefore, they can be divided into separate fractions, for example, into small particles and main grain, which are fed respectively into receivers 4 and 5. Regulation of the maximum particle size between the two passing fractions is carried out by turning the movable partition 13 around the axis 14.

The implementation of a separating surface with a longitudinal section in the form of a brachistochronic curve with angle profile guide elements that create wedge-shaped channels together with the vibration of the sieve allows for the intensification of the separation of particles in the form of a cylinder and improves the quality of the separation process.

Claims (1)

A sieve separator comprising a loading device, a concave sieve with a brachistochrone-shaped surface with working channels created by guide elements, and receivers for separated fractions, characterized in that the concave sieve is equipped with a vibrator, and the guide elements of the concave sieve are made in the form of an angle profile, creating wedge-shaped channels that expand toward the outlet.