SU1605964A1 - Device for removing large impurities from manure - Google Patents

Abstract

The invention relates to agriculture and provides increased operational reliability as well as a reduction in the energy intensity of the separation process by providing periodic cleaning of the grate with a pressure drop in the manure flow. The means for adjusting the periodic cleaning of the grille 13 is made in the form of a plate 18 mounted in the housing 1. The plate 18 is installed above the entrance window 4 and is made as part of the side surface of the cylinder, the longitudinal axis of which coincides with the axis of the shaft 16. The shaft 16 with the fingers 17 is located under the grid 13 The hive is made in the form of a cam mounted on the shaft 16 and spring-loaded latches located on the housing wall. The dung is pumped into the inlet nozzle 12. Through the extinguisher 8 and the inlet 4, manure enters the channel formed by the grate 13 and plate 18. When the slots of the grate 13 are driven in, the pressure rises up to the fingers 17. The fingers 17 with the shaft 16 are rotated. The retainers fix the grooves of the cam shaft and shake the fingers 17 of the shaft 16. Large manure inclusions from the grill 13 with fingers 17 are dropped into tray 6 and then onto the device for removing large manure inclusions made in the form of conveyor 27. Lead drum 28 of conveyor 27 by transferring 29 st with shaft 16. When shaft 16 rotates, conveyor 27 moves and removes large manure inclusions. 3 hp f-ly, 3 ill.

Description

The invention relates to agriculture, in particular, to devices for separating large manure inclusions, which are installed in processing lines for methane digestion of manure. The purpose of the invention is to increase the operational reliability as well as reduce the energy intensity of the separation process by ensuring periodic cleaning of the grate with a pressure drop in the manure flow.

FIG. 1 shows a device for separating large inclusions of manure, front view; FIG. 2 - the same, top view, when removed; in fig. 3 shows section A-A in FIG. 2

A device for separating large inclusions of manure comprises a housing 1 with a lid 2. On the side wall 3 of the housing, an entrance window A is provided for supplying the material to be processed into the housing. On the opposite wall 3, a tray 6 is installed to remove inclusions. In the lower part of the body, which has the shape of a funnel, there is an unloading outlet 7 for leaving the slurry cleared of inclusions. Outside the case, to the side wall 5 there is attached an energy absorber of the flow 8, performed in the form of a cavity having the shape of a parallelepiped. The base of the cavity is made with a width equal to the length of the entrance window, with the lower 9 side face of the cavity installed below the entrance window 4 and the upper 10 above the latter. In the center of the base 11 is fixed boot 12.

A lattice 13 is fixed in the housing, made up of rods 14 with slots 15 between them. One end of the grill 13 is located under the entrance window 4, and the other is above the tray 6. Under the grill in the case perpendicular to its rods 14 there is a shaft 16 with fingers 17 fixed on it, installed with the possibility of their passing through the slots x 15 of the lattice. A curviline plate 18 is mounted above the grate, fixed in a housing above the entrance window 4. The curvilinear plate 18 is made as part of a side surface of a cylinder, the longitudinal axis 19 of which coincides with the axis of the shaft 16.

At the end of the shaft there is a square cam 20 with locking grooves 21 on each of its faces. The cam 20 is in contact with a spring-loaded latch 22 fixedly mounted relative to the body. The latch 22 can be made in the form of two levers 23 arranged parallel to the opposite facets of the cam and made with stop protrusions 24 locking in the grooves 21 of the cam 20. The ends of the levers 23, located along the cam diagonal, are mounted axle x 25 parallel the axis of the shaft, (and their other ends are connected by means of springs 26 to said ends of opposite levers.

The means for separating large inclusions in the device is represented as a conveyor 27, the driving drum 28 of which is associated with the transmission 29 with the shaft 16.

The device works as follows.

Apparently the mass is fed by a pump (not shown) into the housing 1 through the loading nozzle. The passage of the energy damper of the flow 8 and further through the fourth window 4, it is uniformly distributed over the surface of the grid 13.

The liquid fraction passes through the lattices 15 of the lattice and, being cleaned, is directed through the discharge port 7 to the methane tank (not shown), the Inclusions are retained on the lattice elements. Initially, inclusions whose length is several times longer than the length of the lattice slots are delayed. These inclusions form their own grid with smaller cells, which significantly increases the amount of trapping impurities. Then, shorter (up to 5-7 mm) inclusions are layered on the grid. The remaining gaps are clogged with small 1-2 mm undigested feed particles, the entire surface is covered with sludge and the slots are clogged, and the slots between the fingers 17 fixed on the shaft 16 and installed with the possibility of their passage into the slots x 15 of the lattice

From the condition created by the pump for the continuity of the manure flow, as soon as the grate and the cut between the fingers are blocked, the pressure in the channel formed by the grid 13 and the plate 18 fixed in the housing above the inlet 4 is increased.

Due to the pressure drop in parts of the channel, before and after the fingers, the shaft 16 rotates through a certain angle, thereby causing the cam 20, located at the end of the exit - w, to turn through it from the shaft body 1. The cam grooves 21, interacting with the thrust protrusions 24 of the levers 23, cause them to diverge one relative to the other and stretch the associated springs 26. When the flow further affects the fingers of the shaft of the spring 26 due to the forces of resistance to stretching stretch, affect the levers 23, and the latter through the thrust projections onto the grooves 21 of the cam 20, thereby causing the shaft to be turned and fixed. Thanks to this, the next pallet, the entrance to the slits of the lattice, the development of

five

It prevents them from clogging with inclusions. During the shaft turning, the fingers are shaken, which partially releases the gaps between them. The final cleaning of inclusions occurs when the fingers pass through the sections of the slot of the lattice located above the tray 6.

The inclusions remaining on the surface of the lattice are removed into the tray and then retracted by conveyor -27, air; the drum 28 of which is connected by transmission 29 to the shaft, i.e. when the shaft is rotated, the conveyor for removal of inclusions also moves.

Claims (3)

1. A device for separating large inclusions of manure, comprising a housing with loading and unloading nozzles, placed inside the enclosure and connected with a loading pipe and a device for removing large inclusions of manure, a grate and fingers interacting with it fixed to the shaft; in the wall of the housing and communicated by means of the energy absorber of the flow with the loading pipe, to increase operational reliability as well as reduce the energy intensity of the separation process by ensuring periodic cleaning during pressure drop in the manure flow, it is provided with a means of regulating the periodic cleaning of the grid, which is made in the form of a curved plate installed in the housing above the grid and the inlet window, while the shaft with the fingers is placed under the grid. 2. A device according to claim 1, characterized in that the curved plate is made as a part of the lateral surface of the cylinder, the longitudinal axis of which coincides with the axis of the shaft. 3. The device according to PP. 1 and 2, due to the fact that it is equipped with a sprinkler, which is made in the form of a cam mounted on the shaft and spring-loaded latches located on the housing wall for interacting with said cam. on nn 1-3, about the fact that the adaptive large-scale inclusions in the form of transport are i; f g 1116 22 2 Compiled by A.Lazarev Editor N.Shvyschka Tehred M.Didyk Corrector M.Maksi Mishinets Order 3500Tirage 50A Subscription VNIIPI State Committee on Inventions and Discoveries at the State Committee on Science and Technology of the USSR 113035, Moscow, Zh-35, 4/5 Raushsk Nab. pa, which is installed at the outlet of the lattice, and its driving kinematic drum is connected to said shaft. 1e