RU2805955C1 - Feed mixer - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to the devices for the preparation of animal feed on livestock farms, complexes and poultry farms. The mixer includes a housing, at opposite ends of which a loading hopper and an unloading window are installed. A shaft is installed in the inner cavity of the housing, the geometric axis of rotation of which coincides with the longitudinal axis of symmetry of the housing. A stirrer is installed at one end of the shaft, equipped with steel rods arranged parallel to each other and passing through the upper faces of the stirrer elements in a horizontal plane symmetrically from 2 sides. At the other end of the shaft there is a screw-wound auger. The agitator and auger located on the shaft are made separately and are connected to each other by means of a screw connection. The body is divided into receiving and working chambers. The auger is located in the receiving chamber, which is installed under the loading hopper, and the mixer is located in the working chamber. The screw winding of the screw has an additional winding of a smaller diameter than the diameter of the main screw winding of the screw. The working chamber and the receiving chamber at the junction of the auger with the agitator at the ends have flanges to ensure the bolted connection of these body chambers. The elements of the stirrer, fixed on the shaft and bent along a helical line, are equipped with steel rods with a diameter of 5 mm. The rods are parallel to each other and pass through the upper faces of the mixer elements in a horizontal plane symmetrically from 2 sides.

EFFECT: invention will reduce the energy intensity of the mixing process and improve the quality of mixing feed.

1 cl, 4 dwg

Description

The invention relates to the field of agriculture, namely to devices for the preparation of feed on livestock farms, complexes and poultry farms.

The disadvantages of the existing device are the high energy intensity of the process and the heterogeneity of particles in the material composition of the resulting feed.

A multifunctional mixer-grinder for preparing feed is known, including a housing with a loading neck, on the inner surface of which guide ribs are installed, an auger located inside the housing, a cutting element and a grid, mixing blades mounted on the hub of the auger with the ability to rotate relative to the radial plane at an angle, the value of which depends on the physical and mechanical properties of the mixed material, a discharge neck with a valve when mixing without grinding, characterized in that it is equipped with a grain hopper with a dispenser for regulating the seeding rate, a belt conveyor moving sapropel, and trays for germination of the sapropel-grain mixture, and the dispenser is installed above the belt conveyor, and the belt conveyor is connected to the loading neck for supplying the sapropel-grain mixture for mixing with a screw and blades, followed by its delivery to trays for germination, and after germination, the sapropel-grain mixture is re-entered into the mixer-grinder for the processing cycle to obtain something ready for feeding product in the form of a vitamin-feed additive (RU 2685201 C1, cl. A23N 17/00, В02С 19/00, 2019).

A feed mixer for preparing mixed feed is also known, including 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, an auger installed at one end of the shaft, at the other At the end of the shaft there is an installed mixer, made in the form of a screw with a helical winding, with elements fixed on it and bent along a helical line, at the other - a screw with a helical winding. (RU 202399 U1, class A23N 17/00, B02C 19/00, 2021 - prototype).

The disadvantages of this device are the high energy intensity of the working process, poor quality of grinding the grain mass and the inability to mix feed of different fractions.

The technical result consists in reducing the energy intensity of the grinding process, improving the quality of grinding and expanding functionality.

The technical result is achieved by the fact that in the feed mixer, which includes a housing, at opposite ends of which a loading hopper and an unloading window are installed, a shaft is installed in the internal cavity of the housing, the geometric axis of rotation of which coincides with the longitudinal axis of symmetry of the housing, a mixer is installed at one end of the shaft, elements which is fixed on the shaft and bent along a helical line, on the other - a screw with a helical winding, according to the invention, the mixer and the screw located on the shaft are made separately and connected to each other by means of a screw connection, and the housing is divided into a receiving and working chamber, the screw is located in the receiving chamber , which is installed under the loading hopper, and the mixer is in the working chamber located above the discharge window, while the screw winding of the auger has an additional winding of a smaller diameter than the diameter of the main screw winding of the auger, and the working chamber and the receiving chamber at the junction of the auger with the mixer are on The ends have flanges to provide a bolted connection of these body chambers, and the mixer is equipped with steel rods with a diameter of 5 mm, located parallel to each other and passing through the upper edges of the mixer elements in a horizontal plane and symmetrically on both sides.

The novelty of the proposed technical solution lies in the fact that a comparative analysis with the prototype shows that the proposed feed mixer differs from the prototype:

1. Making the mixer and auger separately and connecting them to each other via a screw connection and dividing the body into a receiving and working chamber makes it possible to change the mixer for mixing feed of different fractions.

2. Additional screw winding located on the shaft of the working chamber allows for improved mixing.

3. The design of the stirrer elements, which are steel rods, are located parallel to each other and pass through the upper faces of the stirrer elements in a horizontal plane symmetrically on both sides, ensuring a reduction in the energy intensity of the mixing process.

The identified features of the technical solution of the claimed feed mixer allow us to conclude that the technical solution meets the “inventive step” criterion.

The invention is illustrated by the drawing, where in FIG. 1 - schematically shows a general view of the feed mixer; in fig. 2 - diagram of the mixer in 3D format; in fig. 3 - diagram of the screw in 3D format; fig. 4 - schematically shows the cross section of the mixer.

The feed mixer includes a housing 1, at the opposite ends of which a loading hopper 2 and an unloading window 3 are installed; a shaft is installed in the internal cavity of the housing, made in the form of a pipe.

4. The geometric axis of rotation of which coincides with the longitudinal axis of symmetry of the housing 1. At one end of the shaft 4 there is a mixer with elements 5, mounted on the shaft and curved along a helical line, which are equipped with steel rods 6 with a diameter of 5 mm, located parallel to each other and passing through the upper edges of the mixer elements 5 in a horizontal plane symmetrically on 2 sides, on the other - a screw 7 with a helical winding in the form of screws. Housing 1 is divided into receiving and working chambers 8 and 9, respectively. The mixer and screw 7 located on the shaft 4 are made separately and are connected to each other by means of a screw connection 10. The screw 7 is located in the receiving chamber 8 under the loading hopper 2, and the mixer is located in the working chamber 9 The helical winding of the auger 7 has additional helical windings 11 installed between its main screws of smaller diameter than the diameter of the main helical winding. The working chamber 9 and the receiving chamber 8 at the junction of the screw 7 with the mixer at the ends have flanges 12 to provide a bolted connection 13 of these housing chambers. Steel rods 6 are located one above the other in several rows and have at least 2 entries. Loading hopper 2 has valves 14.

This design of the mixer makes it possible to replace the mixer with other parameters, depending on the type of feed.

The feed mixer works as follows. The feed is fed into the loading hopper 2 located on the housing 1, then the feed falls on the screws of the main screw winding of the auger 7 located in the receiving chamber 8, when it rotates, initial mixing is carried out. Additional helical winding 11 of the auger 7 provides secondary mixing. Next, the feed enters the working chamber 9, where, by creating a turbulent movement of the feed flow with the help of elements 5 and steel rods 6, the feed is fully mixed and the finished mixture is unloaded through the unloading window 3. The supply of feed components is adjusted by valves 14.

The proposed design compared to the prototype and other known technical solutions has the following advantages:

- reducing the energy intensity of the process;

- improving the quality of feed mixing;

- creation of turbulent movement of the feed flow in the mixer.

Claims (1)

A feed mixer, including a housing, at the opposite ends of which there is a loading hopper and an unloading window, a shaft located in the internal cavity of the housing, the geometric axis of rotation of which coincides with the longitudinal axis of symmetry of the housing, and at one end of the shaft there is a mixer, the elements of which are fixed to the shaft and are bent along a helical line, on the other - a screw with a helical winding, characterized in that the mixer and the screw located on the shaft are made separately and connected to each other by means of a screw connection, and the body is divided into a receiving and working chamber, the screw is located in the receiving chamber, which is installed under the loading hopper, and the mixer is in the working chamber located above the discharge window, while the screw winding of the auger has an additional winding of a smaller diameter than the diameter of the main screw winding, and the working chamber and the receiving chamber at the junction of the screw with the mixer at the ends are equipped with flanges for providing a bolted connection of these body chambers, and the mixer is equipped with steel rods with a diameter of 5 mm, located parallel to each other and passing through the upper edges of the mixer elements in a horizontal plane symmetrically on both sides.