SU1351546A1 - Apparatus for distributing feed - Google Patents

Abstract

This invention relates to agriculture. The purpose of the invention is to enhance operational capabilities and increase reliability. The device contains a receiving pipe 1 with a loading neck 2, to which is attached a cylindrical body (CC) 7 with a wedge-shaped slot (KP) 8. The faces 9, 10 of CC 8 are made but with a screw line in one direction, but with different coil pitch. A screw 4 is installed inside the inlet nozzle 1 and CC 7. During operation, the feed goes through the feed neck 2 to the inlet socket 1 where it is picked up by the turns of the auger 4 and transported along the CC 7. At the same time U, K 7 rotates with the screw lower speed. The feed is mixed at the bottom of CC 7 and when it reaches KP 8, it is poured into tank 20. In connection with the fact that faces 9, 10 are made along a helical line, and the tip of KP 8 is ripped against feed direction, the length of the tank. 1 hp f-ly, 1 ill. ((L oo sd JV and 05 o o

Description

The invention relates to agriculture, in particular to devices for the distribution of feed.

The purpose of the invention is to enhance operational capabilities and increase reliability.

The drawing shows a device for the distribution of feed, the appearance.

The device contains a receiving pipe 1 with a loading neck 2, inside of which a screw 4 with a drive 5 is mounted on the bearing 3. The receiving pipe 1 is equipped with a bearing 6 on which is attached a cylindrical body 7 with a wedge-shaped slot 8, which is pointed at the sharp end the material is fed by the screw 4. The edges 9 and 10 of the slot 8 are made along the envelope of the cylinder of the housing 7 by screw lines of the same direction, but with different coil pitch.

Opposite the inlet nozzle 1, the end of the cylindrical body 7 is provided with a disc-shaped end wall 11 with a bearing fixed to the screw shaft. The drive of the cylindrical body 7 is provided with a driven sprocket 13 and is realized from the screw shaft via chain drives 14 and 15, between which the variator 16 is placed. The gear ratio of the housing is chosen so that the ratio of the angular speed of rotation of the screw 4 to installed with the help of variator 16, not less than the ratio of the pitch of the helix 9 to the pitch of the screw auger.

The inlet pipe 1, the drive 5 and the variator 16 are mounted on the frame 17. The opposite end of the device is supported by the shaft of the screw 4 on the bearing 18. The frame 17 and the bearing 18 are supported by supports 19 on the bridge beam or building structures. To receive the food distributed by the device, a container 20 is placed under the rotating cylindrical casing, which is a storage hopper of the processing line, a body of the feeder or other vehicle.

The device works as follows.

The screw 4 is driven by the drive 5 and rotates against the direction of the helix of the boundaries of the conical slot 8 in the supports 3 and 18. In the same direction, but at a lower speed, the cylindrical body 7 driven by the chain drives 14 and 15 rotates on bearings 6 and 12 through the variator 16.

The feed to be distributed through the feeding neck 2 enters the receiving port 1, where it is caught by the screw turns and mixed by them into the rotating cylindrical body 7. The feed moves along the lower part of the cross section and continues until the feed crosses the helix 9 of the wedge-shaped VNIIPA order 5252 /

Production and printing company, Uzhgorod, st. Project, 4

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Slot 8. Subsequently, the food under the action of the force of gravity freely falls into the EM-bone 20 installed under the device.

As the cylindrical body 7 rotates continuously, the downwardly directed section of the screw face 9, corresponding to the feed unloading zone, gradually moves from the receiving pipe 1 to the opposite end of the body 7. The cycle of moving the unloading area ends when the body 7 is turned down by the face 10 extending along the wedge-shaped slot 8. Subsequently, the face 10 gradually moves upwards, and from the receiving branch pipe 1, the screw face 9 begins to rise, shifting the feed unloading zone along the casing. The cycle of laying in the tank next layer of feed is repeated.

When the angular velocity of rotation of the cylindrical body 7 changes through the variable 16, the speed of movement of the feed unloading zone along the filling tank changes. This makes it possible (taking into account technological requirements) to change the mode of filling the tank with feed. At the minimum angular speed of rotation of the cylindrical body 7, the feed is distributed in the tank in just one turn. In this case, the feed is laid in one layer, the thickness of the full height of the loading container. With an increase in the angular velocity of rotation of the casing, the number of laying layers increases proportionally with a corresponding decrease in their thickness.

The distribution in thin layers promotes homogenization in the volume of the capacity of materials consisting of several components. This improves the homogeneity and, therefore, the quality of loose fodder prepared in the processing lines of feed houses and loaded with a simultaneous distribution in the tank of the distributors.

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Claims (2)

Invention Formula i. A feed distribution device comprising a rotatably mounted cylindrical body with a longitudinal slit, within which there are cheeks, characterized in that, in order to expand operational capabilities and increase reliability, the discharge slit is designed as a vertex facing the direction of the wedge material, the face which is made along a helix, with the cylindrical body mounted rotatably against the direction of the helix of the faces of the slot. 2. The device according to claim 1, characterized in that the edges of the wedge-shaped slot are made along helical lines of one direction with unequal coil spacing Circulation 628 Subscription