RU2475436C2 - Blade feeder - Google Patents

Abstract

FIELD: transport.

SUBSTANCE: invention relates to loading of piled agricultural cargoes, particularly, to front-end tools of continuous-action loaders (feeders) and may be used at agricultural storehouses for piled cargoes loading. Blade feeder comprises tray arranged inclined ahead of conveyor with vaned rotors running in opposite directions. Rotors are composed of a disc jointed by plates and shaped to ring flat rim. Said inclined tray is furnished with discharge openings, two sectors composed of the parts of cylinder arranged inside space of said rotors formed by revolving vanes and having OD smaller than ID formed by inner edges of the vanes by the amount of clearance. Said sectors are arranged aligned with rotors and inner edge nearby discharge opening front angle. Feeder is furnished with suspended box with front bar to support seats of bearing assemblies. Note that mounting seats for drive mechanisms are made on said suspended box.

EFFECT: higher efficiency.

3 dwg

Description

The present invention relates to the field of loading used agricultural cargoes, namely, load-gripping devices of continuous loaders (feeders), and can be used in agricultural warehouses, storages and platforms for loading goods stored in the shoulders.

Known blade feeder (RF patent No. 2071234, IPC A01C 3/04, publ. 10.01.97, bull. No. 1) for loading dense agricultural goods, containing a tray slanted in front of the conveyor with two vertically mounted on it shafts with counter-rotating rotors with blades for moving cargo to the conveyor and drive mechanism of each rotor, each rotor made in the form of a movable cage with blades mounted on bearings on a fixed cage, inside of which a shaft with splines rotates on the bearings, connected movable cage using a slotted sleeve.

This feeder does not provide high performance and minimum energy consumption due to the inability to work with a high rotor speed and has a complex drive mechanism.

Known feeder (RF patent No. 2202162, IPC A01C 3/04, B65G 65/20, publ. 04/20/2003, bull. No. 11) for loading loose bulk cargo containing a rotor with blades located in front of the conveyor and a drive mechanism, while the rotor It is made in the form of a disk and a ring connected by strips, and the blades are pivotally mounted on the rotor by means of two coaxial fingers and are fixed in a certain position by a stop screw with a nut. The drive mechanism is located above the disk and the ring with blades, due to which an area for supplying cargo is formed inside the blades.

However, a single rotor does not provide the necessary load capture width and has limited performance. In addition, at a high rotational speed of the rotors, the blades do not have time to completely unload, which also reduces the performance of the feeder and leads to cargo losses.

The technical task of the invention is to increase productivity and reduce load losses by the feeder during loading.

The technical problem is solved in a blade feeder containing a tray inclined in front of the conveyor with two counter-rotating rotors with blades vertically mounted on it, the rotors being made in the form of a disk connected to the planks and having a shape of a flat ring rim, characterized in that the inclined tray is equipped with an unloading a window, two sectors in the form of cylinder parts mounted inside the space of the rotors formed by rotating blades and having an outer diameter smaller than the inner the diameter formed by the inner edges of the blades by the gap, while the sectors are mounted coaxially with the rotors and the inner edge at the front corner of the discharge window, and a hinged box with a front beam, and on the front beam there are seats for bearing assemblies, and on the hinged box - seats for drive mechanisms.

The difference from the prototype of the proposed design is that two sectors are additionally fixed on the inclined tray as part of the cylinder. Moreover, the sectors are installed inside the space formed by the rotating blades of the rotors and coaxially with them, and the inner edge of the sector corresponds to the front corner of the discharge window. The diameter of the conditional cylinder along which the sector is formed is less than the diameter of the conditional cylinder formed by rotation of the inner edges of the blades by the amount of the gap. In addition, from the side opposite the discharge window, the inclined tray is equipped with a hinged box with a front beam. The front beam has seats for the bearing units, and the hinged box has seats for the drive mechanism.

Figure 1 shows a general view of the blade feeder (top view), figure 2 - an inclined tray with an unloading window and sectors fixed on it in the front part, and on the opposite side - a hinged box with a front beam (dimetry), in Fig. 3 - sectional rotor.

The blade feeder contains an inclined tray 1 with an unloading window 2, two counter-rotating rotors 3 in the form of a movable disk 4 with blades 5 with a drive mechanism of each rotor 6. On the inclined tray in front of each side of the unloading window, two sectors 7 are fixedly fixed as part a cylinder with an outer diameter less than the diameter formed by the inner edges of the blades during rotation of the rotors by the amount of clearance, while the axis of the conditional cylinder from which the sector is formed is aligned with the axis of the rotors, and the inner edge of the sector is the same Comes with the front corner of the discharge window. On the opposite side of the unloading window, the inclined tray contains a hinged box 8 with a front beam 9 rigidly attached to it. The hinged box has seats 10 for the drive mechanism 6 of rotors 3, and the front beam has seats 11 for bearing assemblies 12.

The blade feeder operates as follows. The drive mechanism 6, mounted on the seat 10 of the hinged box 8, rotates the rotor 3, made in the form of a movable disk 4 with blades 5 and mounted on the bearing assemblies 12 on the front beam 9. When the feeder and the loader move in the direction of the collar, the rotating blades 5 of each rotor they are introduced into the cargo, capture it and on the surface of the sector 7 they are moved along the guide to the unloading window 2 of the inclined tray 1. In the unloading window, parts of the cargo fall onto the loading conveyor of the truck. The presence of sector 7 prevents the ingress of cargo into the rotor, and at the same time, when the blades pass over the unloading window, they are freely unloaded onto the conveyor without interference from other structural elements, and the length of the path of the blades above the unloading window also increases. As a result, productivity increases and cargo losses are eliminated.

Claims (1)

A paddle feeder comprising a tray inclined in front of the conveyor with two counter-rotating rotors with blades vertically mounted on it, the rotors being made in the form of a disk connected to the planks and having the shape of a flat ring rim, characterized in that the inclined tray is equipped with an unloading window, two sectors in the form of cylinder parts mounted inside the space of rotors formed by rotating blades and having an outer diameter less than the inner diameter formed by the inner the lower edges of the blades, by the size of the gap, while the sectors are mounted coaxially with the rotors and the inner edge at the front corner of the discharge window, and a hinged box with a front beam, and on the front beam there are seats for bearing assemblies, and on the hinged box there are seats for drive mechanisms.

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