RU2125362C1 - Feed grinder-mixer - Google Patents

Abstract

FIELD: feed industry. SUBSTANCE: feed grinder-mixer has primary squash and root grinding chamber, grinding device mounted within chamber and formed as perforated semicircular disk cooperating with knife, secondary grinding chamber with additional grinding device composed of two semicircular disks offset one relative to another in vertical plane, with space between semicircular disks being equal to height of dovetail-shaped knife. Discharge chamber is positioned in lower part of feed grinder-mixer. Finger-type thrower is arranged in discharge chamber so as to provide uniform and intensified discharge of feeds. EFFECT: simplified construction, wider operational capabilities and improved feed quality. 2 cl, 5 dwg

Description

 The invention relates to agricultural machinery, in particular to machines for continuous grinding and mixing of feed.

A device chopper-mixer feed ISK-3 is known, comprising a working chamber with a receiving hopper and an unloading nozzle, a rotor mounted in the chamber, on which mounted, belt-mounted, radially mounted knives. Also, the cutting elements are mounted on the inner surface of the vertical chamber. (Aleshkin V.R., Roshchin P.M. "Mechanization of animal husbandry." -2nd ed., Revised and enlarged M: Kolos, 1993, p76, fig. 2.16.)
The expansion of technological capabilities and improving the quality of grinding and mixing is achieved by the fact that the feed chopper-mixer, including the chamber and inside the grinding and regrind apparatus, made in the form of belt mounted knives on the shaft in the chamber, as well as an unloading apparatus, characterized in that it is equipped a vertical partition rigidly connected to the walls of the chamber, and the grinding apparatus is made in the form of a perforated half-disk interacting with a knife, and the vertical partition is sized it is still above the perforated half-disk with a gap, while the regrinding device is made in the form of two half-disks, displaced vertically from one another with a gap between them equal to the height of the knife. In addition, the knife of the chopping apparatus is made wedge-shaped, and the chopping apparatus in the form of a dovetail.

 In FIG. 1 shows a feed chopper-mixer, side view (section); in FIG. 2 shows the shape of the knife of the grinding apparatus (section along BB); in FIG. 3 - the shape of the knife of the regrinding apparatus (section along BB); in FIG. 4 - chopper-mixer, top view (section aa); in FIG. 5 is the same, top view (section along G-D).

 The chopper-mixer feed contains a receiving hopper 1 for loading pumpkins and root crops, a hopper 2 for loading chopped silage, a working chamber 3 for grinding pumpkins and root crops, consisting of a perforated half disk 4, with which a wedge-shaped knife 5 of the grinding apparatus mounted on the shaft 6 and interacts vertical partitions 7, a secondary grinding chamber 8, with a wedge-shaped knife 9 mounted on the shaft 6, a regrind apparatus, consisting of two half-disks 10 and 11, vertically offset from each other or with a gap equal to the height of a dovetail-shaped knife 12, as well as an unloading chamber 13 and a finger thrower 14 located therein, mounted on the shaft 6, while the fingers 15 of the finger thrower 14 are mounted on the shaft 6 with overlapping their coverage areas on the right helix, the direction of which from the bottom of the discharge chamber 13 is opposite to the rotation of the shaft 6.

 Grinder-mixer feed works as follows. Pumpkin or root and tubers are loaded into the receiving hopper 1, in the working chamber 3, when the wedge-shaped knife 5 and the perforated half-disk 4 interact, the primary product is crushed, horizontal movement of which is prevented by the vertical partition 7, the crushed particles pass through the holes of the perforated half-disk 4 into the secondary grinding chamber 8, where, when the wedge-shaped knife 9 and half-disk 10 interact, additional grinding of the product takes place. At the same time, the chopped silo enters the receiving hopper 2, which, under the action of gravity, enters the regrinding apparatus, consisting of two half-disks 10 and 11, and the knife 12. In the regrinding apparatus, two components of pumpkin or root crops are finally crushed from the receiving hopper 1 and silo from hopper 2, as well as mixing them. Further, the feed under the influence of gravity and vortex flow moves down into the discharge chamber 13, where the feed falls under the action of a finger thrower 14, which discharges it to the side walls of the discharge chamber 13, and since the gap between the fingers 15 and the side walls of the discharge chamber 13 is minimal (2 mm), fingers 15, introducing into the feed, mix it and transport it to the unloading window, while transportation is carried out by each finger 15 in small portions and evenly distributed over the entire height of the action area of the fingers 15, which allows feed unloading with greater intensity and uniformity.

Claims (2)

 1. Food chopper-mixer, comprising a chamber and grinding and re-grinding apparatus located inside it, made in the form of knives mounted on a shaft in a chamber in a belt and an unloading apparatus, characterized in that it is provided with a vertical partition rigidly connected to the chamber walls, the grinding apparatus is made in the form of a perforated half-disk interacting with a knife, and the vertical partition is placed above the perforated half-disk with a gap, while the regrinding device is made in the form of two floors udisk displaced vertically one relative to another with a gap between them equal to the height of the knife.  2. The chopper-mixer according to claim 1, characterized in that the knife of the grinding apparatus is made wedge-shaped, and the knife of the regrinding apparatus is made in the form of a dovetail.

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