RU199655U1 - FEED MIXER - Google Patents

Abstract

The utility model relates to agriculture, in particular to feed mixers. The feed mixer comprises a casing, at the opposite ends of which a loading hopper and an unloading window are installed, and a shaft is installed in the inner cavity of the casing. A screw is installed at one end of the shaft, and an agitator is installed at the other end of the shaft, made in the form of inclined disks, fixed at angles α to the axis of rotation of a hollow shaft made with a square section. Spacers with inclined end walls are installed between adjacent disks on the hollow shaft, the tilt of which to the axis of rotation of the shaft corresponds to the angle of inclination of the disks. Obliquely mounted discs are made in the form of biconvex lenses. Biconvex lenses, fixed on a rotating shaft at an angle α to the axis of rotation, increase the efficiency of mixing feed components, and long-fiber feed components do not hang on biconvex lenses, which leads to an increase in the reliability and performance of the mixer mixer ...

Description

The utility model relates to agriculture, in particular to feed mixers.

Known fodder mixer, which includes a casing with a screw placed in it. A loading hopper and an unloading window are installed at opposite ends of the casing. The auger is installed under the loading window. An axle and a hollow shaft are installed in the inner cavity of the casing. Bevel gears are fixed on the axle, interacting with bevel gears. Half-shafts are fixed on bevel gears. The blades are rigidly fixed on the axle shafts and are located on the hollow shaft along a helical line, the direction of the turn of which coincides with the direction of rotation of the hollow shaft. The blades are mounted for rotation around their axis and around the geometric axis of rotation of the hollow shaft. [Mixer of bulk feed. Patent RU 124118. Publ. January 20, 2013, Bul. No. 2].

However, the known mixer allows a low quality of mixing of feed components, as well as increased energy consumption for mixing feed components due to the large number of rotating working bodies.

Also known is a feed mixer, which includes a casing, at opposite ends of which a loading hopper and an unloading window are installed. A shaft is installed in the inner cavity of the casing, the geometric axis of rotation of which coincides with the longitudinal axis of symmetry of the casing. A screw is installed at one end of the shaft, and an agitator at the other. The mixer is made in the form of inclined flat discs, fixed at inclination angles α to the axis of rotation of the hollow shaft of square section. Spacer sleeves with inclined end walls - bases are installed between adjacent disks on the hollow shaft. The value of the angle α of inclination of the end walls - bases to the axis of rotation of the shaft corresponds to the angle of inclination of the flat discs. [Application for invention No. 2019145166/10, IPC A23N 17/00, Appl. 12/25/2019].

The known feed mixer works as follows. The feed components enter the feed hopper sections. The division of the loading hopper into sections by vertical partitions allows feeding individual feed components into the casing by means of dispensers in the required proportion. The feed components from the sections enter the inner cavity of the casing and are captured by inclined flat discs. Inclined flat discs, mounted on the shaft at an angle α to its axis, perform complex spatial movements and impact on the feed. In this case, inclined flat discs not only move the feed to the auger, but also intensively shake and mix the feed components. At the same time, the feed components coming from the sections of the loading hopper are intensively and qualitatively mixed. The technological process of mixing feed is carried out intensively, accompanied by complex spatial movements and shock effects of inclined flat discs on feed components. Inclined flat discs, due to their design feature, smoothly change the angle α, capturing portions of feed during one turn, and intensively affect the feed with their lateral surfaces. As a result of complex spatial movement and impact on the feed components of inclined flat discs fixed on a rotating shaft, the efficiency of mixing the feed components is increased.

The known feed mixer has disadvantages. Laboratory and experimental studies of the well-known feed mixer have shown that long-fiber feed components hang on inclined flat discs fixed at angles α to the axis of rotation of the hollow shaft.

The task to which the claimed technical solution is directed is to expand the arsenal of technical means in the field of mixing feed components and increase the performance of the mixer of the feed mixer.

The technical result consists in the fact that an increase in the performance of the mixer of the feed mixer is ensured by installing inclined discs made with a streamlined surface.

The technical solution is achieved by the fact that a feed mixer, including a casing, at the opposite ends of which a loading hopper and an unloading window are installed, a shaft is installed in the inner cavity of the casing, an auger is installed at one end of the shaft, a mixer is installed at the other end of the shaft, made in the form of inclined discs, fixed at angles α to the axis of rotation of a hollow shaft made with a square section, spacer sleeves with inclined end walls are installed between adjacent disks on the hollow shaft, the angle α of inclination of which to the axis of rotation of the shaft corresponds to the angle of inclination of the disks, and the inclined disks are made in the form of biconvex lenses.

Comparative analysis with the prototype shows that the claimed feed mixer meets the criterion of "novelty", as it has significant differences from the prototype.

1. The inclined discs are made in the form of biconvex lenses.

The revealed signs of the technical solution of the claimed feed mixer allow us to conclude that the technical solution meets the criterion "Significant differences".

In terms of the totality of features, the proposed technical solution meets the criterion of "novelty", since, unlike the prototype, the inclined discs are made in the form of biconvex lenses.

The feed mixer meets the “inventive step” criterion, since the claimed technical solution is not obvious, it was proposed for the first time and, in combination, provides an expansion of the arsenal of technical means in the field of mixing feed components and increases the performance of the mixer of the feed mixer.

The technical solution is illustrated by drawing material.

FIG. 1 schematically shows a general view of a feed mixer; in fig. 2 - working body of the mixer of the feed mixer.

The feed mixer contains a casing 1, at the opposite ends of which a loading hopper 2 and an unloading window 3 are installed. The loading hopper 2 is divided into sections 4, 5 and 6 by vertical partitions 7. At the bottom of sections 4, 5 and 6 there are dispensers 8, which can be made, for example, in the form of dampers.

In the inner cavity of the casing 1, a shaft 9 is installed. At one end of the shaft 9, a screw 10 is installed, and at the other end of the shaft 9, under the loading hopper 2, there is an agitator made in the form of inclined disks made in the form of biconvex lenses 11, 12 and 13. Biconvex lenses 11, 12 and 13 are fixed at an angle α to the axis of rotation of a hollow shaft 9 made with a square cross section. Spacers 14, 15 and 16 are installed between the inclined discs made in the form of biconvex lenses 11, 12 and 13 on a hollow shaft 9 having a square cross section. Spacer sleeves 14, 15 and 16 are made with inclined end walls - bases, the value of the angle of inclination which to the axis of rotation of the shaft 9 corresponds to the angle α of inclination of the disks 11, 12 and 13. Spacer sleeves 14, 15 and 16 are removable and can be installed on the shaft 9 of a square section of the required length.

The drive of the shaft 9 is carried out from the electric motor 17 by a V-belt drive 18 to the gears 19 and 20. The gear 20 is fixed on the shaft 9.

The feed mixer works as follows. The feed components enter sections 4, 5 and 6 of the feed hopper 2. The division of the feed hopper 2 into sections 4, 5 and 6 by vertical partitions 7 allows feeding the individual feed components into the casing 1 by means of dispensers 8 in the required proportion. The feed components from sections 4, 5 and 6 enter the inner cavity of the casing 1 and are captured by inclined discs made in the form of biconvex lenses 11, 12 and 13. Inclined biconvex lenses 11, 12 and 13, mounted on the shaft 9 at an angle α to its axis , perform complex spatial movements and shock effects on food.

Obliquely mounted on the shaft 9, biconvex lenses 11, 12 and 13, not only move the feed to the auger 10, but also intensively shake, that is, mix the feed components. Obliquely installed biconvex lenses 11, 12 and 13, in contrast to flat discs, as in the prototype, mix the feed components more intensively by moving the feed in the vertical direction.

Biconvex lenses 11, 12 and 13 have a more streamlined surface compared to the flat discs of the prototype. On biconvex lenses 11, 12 and 13, which have a more streamlined surface, long-fiber feed components do not hang, which leads to reliable operation and increased performance of the mixer of the feed mixer.

The technological process of mixing feed components is carried out intensively, accompanied by complex spatial movements and impact effects of biconvex lenses 11, 12 and 13 on the feed components. Biconvex lenses 11, 12 and 13, inclined on the shaft 9, due to their design feature, smoothly change the angle α, capturing portions of feed during one turn, and intensively affect the feed with their lateral streamlined surfaces. As a result of complex spatial movement and impact on the feed components of the biconvex lenses 11, 12 and 13, fixed on the rotating shaft 9, the mixing efficiency of the feed components is increased. Long-fiber components of the feed do not hang on the biconvex lenses, which leads to an increase in the reliability and performance of the mixer of the feed mixer.

Claims (1)

A feed mixer, characterized in that it has a casing, at the opposite ends of which a loading hopper and an unloading window are installed, a square hollow shaft installed in the inner cavity of the casing, and a screw is installed at one end of the shaft, and a mixer made in the form inclined disks fixed at angles α to the axis of rotation of the hollow shaft, while the inclined disks are made in the form of biconvex lenses, and spacer sleeves with inclined end walls are installed between adjacent disks on the hollow shaft, the angle of inclination of which to the axis of rotation of the shaft corresponds to the angle of inclination disks.

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