SU1166758A1 - Fodder distributor - Google Patents

Description

I The invention relates to agricultural equipment, in particular to feed dispensers used on livestock farms and complexes. A feed dispenser is known, which includes a bunker installed above the feeding trough on a self-propelled cart equipped with an unloading device, made in the form of a screw, to one of them. which is attached to the blade shaft, located in the chamber with the end wall and the window made at the edge of the chamber 1. The disadvantage of this feed dispenser is the pressing of the feed in the area of the end wall at the discharge port. The closest to the technical essence of the invention is a feed dispenser, which includes a bunker mounted on a self-propelled cart with two screws parallel to its base, the discharge ends of which are placed in cylindrical chambers, each of which is made with an end wall and a discharge window, and a device for preventing the pressing feed mounted at the end wall on the shaft of each screw C2. The disadvantage of this feed dispenser is that its device for preventing feed pressing is made in the form of a blade, having the shape of a spiral winding. As a result, pulsating movement of feed occurs in the zone of the discharge window, which is accompanied by a decrease in the uniformity of its distribution. The purpose of the invention is to increase the uniformity of distribution of the feed by smoothing its pulsation in the zone of the discharge window. The goal is achieved by the fact that the device to prevent the feed from being compressed is made in the form of a screw which is spring-loaded along the shaft axis and located at a distance of 0.5-0. 6. The diameter of a cylindrical chamber, a rotor with radial blades fixed at angles 90 to each other and 27-33 to the plane of their rotation, while the speed of rotation of the rotor is 2-3 times greater than the speed of rotation of the auger. 8 In addition, each rotor blade has a sector shape, the central angle of the arc of which is 74-76. The rotor and the screw are mounted with counter-rotating capability. FIG. 1 shows a schematic view of the feed dispenser, side view; Fig. 2 shows a device for preventing the pressing of the feed, a longitudinal section; Fig. 3 is the same, section A-A in Fig. 2, the Feeder includes a hopper 2 mounted on a self-propelled trolley 1 with two screws parallel to its base in semi-housings 3. The unloading buckets of the latter are placed outside the wall 5 of the hopper 2 in cylindrical chambers 6, each of which is made with an end wall 7 and an unloading window 8. The feed dispenser is equipped with a device to prevent the feed from being pressed in, mounted on the shaft 9 of each screw 4 and made in the form of a rotor 10 with radial vanes 11. The rotor is mounted on The splines 12 are spaced from the end wall 7, 0.5-0.6 times the diameter of the cylindrical chamber 6, and spring-loaded along the axis of the auger shaft by means of a spring 13 abutting against the thrust sleeve 14. On the auger side, reversing the rotor is limited by the spacer 15 The blades 11 are fixed at angles 90 to each other and 27-33 to the plane of their rotation, each blade having the shape of a sector, the central angle of which is 74-76 °. The rotational speed of the rotors is 2-3 times greater than the rotational speed of the screws and they rotate in opposite directions to the sprockets 16 and 17, associated respectively with the shafts 9 of the screws and the shafts 18 of the rotors 10 and the bypass asterisk 19, I The feed dispenser works as follows. When the self-propelled trolley 1 moves above the feeders, the feed from the hopper 2 is fed by the screws 4 into the cylindrical chambers 6 in the form of a pulsating flow. In the zone of the discharge ports 8, this feed stream is actively picked up by the blades 11 of the rotating rotors 10 and is discharged by them already in a continuous stream into the feeders. Under the pressure of the pulsating flow of feed supplied by the screws, the rotors move in axial direction to the left and right, compressing and unclamping the spring 13, thereby compensating the pulsating nature of the feed supplied to the discharge windows of the feed rotors relative to the screws.

166758

floating

position

transition t in

in the feed stream.

Due to this implementation of the feeder, 5 pulsations of feed are smoothed in the zone of each discharge window, which significantly increases the uniformity of its distribution.

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Claims (3)

1. FEEDER including a hopper mounted on a self-propelled truck with two screws parallel to its base, the unloading borders of which are placed in cylindrical chambers, each of which is made with an end wall and an unloading window, and a device for preventing feed preloading mounted at the end wall on the shaft of each screw, characterized in that, in order to increase the uniformity of feed distribution by smoothing out its pulsations in the area of the discharge window, a device to prevent over-feeding feed scoops are made in the form of a screw spring-loaded along the shaft axis and located at a distance from the end wall equal to 0.5-0.6 of the diameter of the cylindrical chamber, of a rotor with radial blades fixed at an angle of 90 ° relative to one another and 27-33 to their plane rotation, while the rotor speed is 2-3 times higher than the screw speed. 3 2, The feed dispenser according to claim 1, characterized in that each rotor blade has a sector shape, the central arc angle of which is 74-76 °. 3. The feed dispenser according to claim 1, wherein the rotor and screw are installed with the possibility of oncoming rotation. <put./ SU ... 1166758>