RU2306985C2 - Garbage sorting out apparatus - Google Patents

Abstract

FIELD: equipment for sorting out of garbage at initial processing stage, may be used in process lines of sorting out complexes.

SUBSTANCE: apparatus has frame, feeding hopper mounted on frame and adapted for material to being sorted out, said hopper being equipped with front and side walls. Apparatus is further provided with immovable grid having charging and discharge edges. Grid is fixed on frame below feeding hopper and consists of parallel plates connected in spaced-apart relation with one another. Apparatus is also provided with movable grid comprising parallel plates connected with one another and having upper edge equipped with teeth. Plates of movable grid are placed in spaces between plates of immovable grid. Movable grid is positioned for vibrating movement in vertical plane by means of drive comprising main eccentric shafts positioned on frame and connected with rotational engine through chain transmission, said eccentric shafts being kinematically connected with movable grid. Apparatus is further provided with additional eccentric shaft positioned on frame between main eccentric shafts so that straight lines extending between centers of eccentrics of main and additional shafts define triangle with apex arranged above straight line which connects centers of eccentrics of main shafts. Kinematic connection of main and additional eccentric shafts with movable grid is made in the form of carrier which is connected to each of eccentrics so as to move the latter relative to carrier, and is rigidly connected to movable grid.

EFFECT: enhanced reliability in operation, prolonged service life, increased capacity, reduced dynamic loading, and wider operational capabilities of apparatus.

6 cl, 7 dwg

Description

The invention relates to equipment for sorting garbage at the initial stage of its processing and can be used in technological lines of sorting complexes.

A device for sorting materials containing a screening deck, consisting of two independent gratings of beams installed through one with the ability to move in antiphase vertically and horizontally (RF patent No. 2094133, class B07B 1/12, 07/01/92) is known. In the known device, it is difficult to move to the discharge end of the material remaining on the grating beams after sieving fine fractions, which excludes its use for sorting garbage.

A device for sorting materials, for example garbage, is also known, in which the grate screen consists of two frames that contain parallel alternating grates driven into oscillatory motion (RF patent No. 2104097, class B07B 1/12, 09/23/94). The disadvantages of this device include the fact that at the output end of the grate there may be accumulation of debris remaining after sieving the fine fraction, and uneven dumping of garbage for further processing.

A prototype of the present invention is a device for sorting garbage, comprising a frame on which a receiving hopper for sortable material with front and side walls is mounted, a fixed grate mounted on a frame below the receiving hopper and consisting of plates connected to each other, installed with a gap between each other, a movable lattice with loading and unloading edges, including plates connected to each other, the upper edge of which is provided with teeth, while the plates of the movable lattice are placed in the gaps between the plates of the fixed lattice and the movable lattice are mounted with the possibility of oscillatory movement in the vertical plane from the drive, which includes the main eccentric shafts mounted on the frame and connected to the rotary engine via a chain drive, which are kinematically connected to the movable lattice (RF patent №2058834, C B07B 1/46, A01F 12/30, 01/12/93). The disadvantages of the known device is that when using a chain transmission between eccentric shafts, it is quite difficult to realize a smooth transition by the eccentrics of the "dead" points during their rotation, since it is necessary to ensure very parallel accuracy of the location of the eccentrics of both shafts relative to each other in any position during their rotation, that is, the four link formed by the frame, the movable grating, and the eccentrics must exactly match the parallelogram. In the absence of such parallelism, one of the edges of the lattice is advanced or lagged relative to the other during the transition of "dead" points. Since the drive circuit is a rigid connection, it cannot compensate for these violations of plane-parallel lattice rotation due to rapid compression or tension, and this leads to an increase in dynamic loads on the circuit, i.e. to shocks, stretching of chain links and further growth of dynamic loads on the supports of eccentric shafts. In addition, the design of the known device does not have dynamic balancing of moving masses, which also impairs reliability and reduces the durability of its work. Also in this device, when it is used for sorting garbage and, despite the presence of teeth of the movable grate, it is impossible to ensure efficient tearing of packages with garbage, since the teeth of the movable grate have the same speed of movement with the packets in contact with them. In the known device, it is also difficult to leave the debris remaining on the grids from the discharge edge, since the surface of the grids is horizontal, and it is also possible to clog the gaps between the plates of the movable and stationary grids on the discharge edge with debris.

The present invention is aimed at solving problems of increasing the reliability and durability of the device for sorting garbage by reducing dynamic loads, expanding technological capabilities of application and increasing throughput.

The technical result is achieved by the fact that the known device for sorting garbage, containing a frame on which is mounted a receiving hopper for sortable material with front and side walls, a fixed grid with loading and unloading edges, mounted on a frame below the receiving hopper and consisting of connected to each other parallel plates installed with a gap between each other, a movable grating, including parallel plates connected to each other, the upper edge of which is provided with teeth, while Astins of the movable grill are placed in the gaps between the plates of the fixed grill and the movable grill is mounted with the possibility of oscillatory movement in the vertical plane from the drive, which includes the main eccentric shafts that are kinematically connected to the movable grill and are mounted on the frame and connected to the rotational motion motor via a chain drive, equipped with an additional eccentric shaft mounted on the frame between the main eccentric shafts, so that straight lines passing m Between the centers of the eccentrics of the main and additional shafts, they form a triangle with a vertex lying above a straight line connecting the centers of the eccentrics of the main shafts, and the kinematic connection of the main and additional eccentric shafts with a movable grid is made in the form of a carrier, which is connected to each of the eccentrics with the possibility of rotational movement the latter relative to the carrier and is rigidly connected with the movable lattice. In addition, the device is equipped with counterweights for dynamically balancing the moving masses of the carrier and the movable lattice, which are rigidly connected with the eccentrics of the main eccentric shafts. The fixed and movable lattices are fixed on the frame with an inclination relative to the horizontal plane, while the inclination of the lattices is directed towards the discharge edge of the fixed lattice. In addition, the device is equipped with hooks for sortable material mounted on the side walls of the hopper with the possibility of rotation in the vertical plane, placed with a gap above the fixed grid and directed to the latter, and guide bushings made of antifriction material and placed in the gaps between the plates of the movable and fixed grilles at the discharge edge. The surface of the front wall, facing the discharge end of the fixed grid, is made with a damping coating, while the front wall is inclined towards the discharge edge relative to the fixed lattice.

An additional eccentric shaft, kinematically connected with the main eccentric shafts by means of the carrier, ensures the position of the carrier at any point on its path, which makes the carrier the main mechanism for transmitting rotation from the engine to the main eccentric shafts. The chain transmission in this case becomes an auxiliary drive and provides smoothing of dynamic loads during the transition of the "dead" points. To reduce the dynamic loads from the unbalanced masses of the movable grate with a layer of debris on it, the mass of which is constantly changing, counterweights are used that are rigidly connected with eccentrics. Hooks placed above the fixed grate and directed towards it ensure retention of the sorted debris and create conditions for supporting cutting teeth of the moving grate, which cut through the garbage bags, which provides better sorting. Bushings made of antifriction material, placed between the plates of the fixed and movable gratings at the exit edge, prevent clogging of these gaps with debris, and also keep the free ends of the plates of the movable and fixed gratings from deformation. When glass components of the garbage, such as bottles, get on the inclined front wall of the hopper on the damping coating, the latter do not break, but roll onto the grates. This provides a greater yield of recycled materials.

The invention is illustrated by drawings. Figure 1 shows a device for sorting garbage in a perspective view; figure 2 shows the device, front view; figure 3 is the same, a section aa, figure 2; figure 4 is the same, view B, figure 2; figure 5 is the same, section bb, figure 3; figure 6 is the same, section GG, figure 4; Fig.7 is the same, view D, Fig.2.

The device for sorting garbage contains a frame 1, on which a hopper for sorted material is mounted, formed by the front 2 and side 3, 4 walls. A fixed lattice 5 is fixed below the receiving hopper on the frame 1. The lattice 5 has a loading edge 6 on the front wall 2 side and a discharge edge 7 on the opposite side. The parallel plates 8 of the lattice 5 are interconnected with a gap. The movable grid 9 contains interconnected plates 10 parallel to the plates 8 and placed in the gaps between them. The upper edge of the plates 10 is provided with teeth 11 with cutting edges. The fixed 5 and movable 9 lattices are installed with an inclination relative to the horizontal plane towards the discharge edge 7. A motor 12 of the rotational movement is mounted on the frame 2. The main eccentric shafts 14 and 15 with the eccentrics 16 and 17, respectively, are also mounted on the frame 2 in the bearings 13. The center of the eccentric 16 is indicated in FIG. 7 by point a. The center of the eccentric 17 is indicated in FIG. 7 by point c. Asterisks 18 and 19 are mounted on the shafts 14 and 15 to transmit rotation from the engine 12 through the sleeve-roller chains 20 and 21. To tension the chain 21, the tensioning stars 22 are used. Eccentrics 16 and 17, in turn, using bearing bearings 23 and 24 connected to the carrier 25. In the upper part to the carrier 25 a movable grill is rigidly attached 9. Between the main eccentric shafts 14 and 15, an additional eccentric shaft 26 with an eccentric 27 is mounted on the frame, which is connected to the carrier 25 using the bearing support 28. The center of the eccentric 27 is marked point b (Fig.7). The straight lines connecting the centers of the eccentrics 16, 17, and 27 together form a triangle abc with a vertex b lying above the base ac by h. The surface of the front wall 2, facing the inside of the hopper, is damped, for example, from sheet rubber, with a coating 29 and is inclined relative to the stationary grill 5 towards its discharge edge 7. Counterweights 30 are rigidly connected to the eccentrics 16 and 17 of the main 14 and 15 eccentric shafts and 31, serving to dynamically balance the moving masses of the movable grate 9 with debris. On the side walls 3 and 4 of the hopper with the help of hinges 32 with the possibility of rotation in the vertical plane, plates 33 are fixed on which hooks 34 are mounted, mounted above the fixed grid 5 with a gap and directed towards the fixed lattice 5. On the discharge edge 7 in the gaps between the plates 6 fixed lattice 5 and the plates 10 of the movable lattice 9 placed sleeve 35 made of antifriction material, such as caprolon.

A device for sorting garbage works as follows. Garbage enters the hopper through a conveyor (not shown) and falls under its own weight onto the front wall 2 of the hopper and slides along it to the fixed grate 5. Glass fragments of garbage do not break on the damping coating 29 and also enter the fixed grate 5. Rotating engine 12 through the sleeve-roller chain 20 drives the sprocket 18 and, accordingly, the main eccentric shaft 14. The chain 21, in turn, transmits the rotation to the sprocket 19 and the eccentric shaft 15. Eccentrics 16 and 17, turning around the centers of the shaft 14 and 15 are brought into an oscillating movement carrier 25, which in turn results in a similar oscillatory motion of movable grate 9. Simultaneously to rotate an additional eccentric shaft 26. The oscillation frequency of the carrier is 3-5 oscillations per second. The plates 10 of the movable grill 9 go out over the plates 8 of the stationary grill 5 during their movement. The debris located on the stationary grill 5 is thrown up by the plates 10, and the teeth 11 move the garbage in the direction of the discharge edge 7 along the inclined surface of the stationary grill 5. When tossing garbage it fine fractions, the sizes of which are smaller than the gaps between the plates 8 and the plates 10 of the fixed 5 and the movable 9 grids, fall into the gaps and are separated from the bulk of the garbage, which is sent for further sorting at. When moving to the side of the discharge edge 7, the garbage clings to the hooks 34, is delayed, and if there are bags in the garbage, for example plastic or paper, they are destroyed by the cutting edges of the teeth 11. In the event that large objects fall into the mass of garbage, they pass under the hooks 34 that rotate with the plates 33 around the hinges 32. On the discharge edge 7 an even layer of debris free from dirt and small fractions is formed, which enters the sorting conveyor (not shown). The bushings 35 cover the ends of the plates 10 and 6 of the movable 9 and the stationary 5 grids, which protects them from clogging the gaps with debris. During oscillatory motion, the movable grating 9 passes the “dead” points corresponding to the upper and lower positions of the eccentrics 16 and 17. At these points, the trajectory of the plates 10 of the grating 9 may be violated due to the non-parallelism of the eccentric shafts 14 and 15. In this case, dynamic loads transmitted on the shafts 14 and 15 by means of the carrier 25. The chain 21 damps (folding and stretching its links) with tension stars 22 the vibrations caused by dynamic loads during the transition of 9 dead points by the moving grating, which o reduces dynamic loads on the eccentric shafts 14 and 15, as well as on the bearing bearings 13.

Claims (6)

1. A device for sorting garbage, comprising a frame on which a receiving hopper for sortable material with front and side walls is mounted, a fixed grate with loading and unloading edges, mounted on a frame below the receiving hopper and consisting of parallel plates connected to each other, installed with with a gap between each other, a movable grating, including parallel plates connected to each other, the upper edge of which is provided with teeth, while the plates of the moving grating are placed in the gaps between the the fixed lattice and the movable lattice is mounted with the possibility of oscillatory movement in a vertical plane from the drive, which includes the main eccentric shafts mounted on the frame and connected to the rotational motion motor via a chain drive, which are kinematically connected to the movable lattice, characterized in that it is provided with an additional an eccentric shaft mounted on the frame between the main eccentric shafts so that straight lines passing between the centers of the eccentrics main and additional shafts, form a triangle with a vertex lying above a straight line connecting the centers of the eccentrics of the main shafts, and the kinematic connection of the main and additional eccentric shafts with a movable grid is made in the form of a carrier, which is connected to each of the eccentrics with the possibility of rotational movement of the latter relative to the carrier and is rigidly connected to the movable grill. 2. The device according to claim 1, characterized in that it is equipped with counterweights for dynamically balancing the moving masses of the carrier and the movable lattice, which are rigidly connected with the eccentrics of the main eccentric shafts. 3. The device according to claim 1, characterized in that the fixed and movable lattices are mounted on the frame with an inclination relative to the horizontal plane, while the inclination of the lattices is directed towards the discharge edge of the fixed lattice. 4. The device according to claim 1, characterized in that it is equipped with hooks for the material to be sorted, mounted on the side walls of the receiving hopper with the possibility of rotation in a vertical plane, placed with a gap above the fixed grid and directed to the latter. 5. The device according to claim 1, characterized in that it is equipped with guide bushings made of antifriction material and placed in the gaps between the plates of the movable and fixed lattices on the discharge edge. 6. The device according to claim 1, characterized in that the surface of the front wall facing the discharge end of the fixed grid is made with a damping coating, while the front wall is installed with an inclination towards the discharge edge relative to the fixed lattice.

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