RU2212125C2 - Settler-manure accumulator for accumulating of cattle manure - Google Patents

Abstract

FIELD: agricultural engineering. SUBSTANCE: settler-accumulator has vessel made of concrete and filtering member made in the form of perforated belt arranged in front of shutter and attached with its edges to bottom and side walls of vessel and with its upper edge to upper part of end wall. Stops are positioned in upper part of end wall and inflatable elastic annular casing are fixed between said stops. EFFECT: increased efficiency in separating cattle manure. 3 cl, 4 dwg

Description

 The invention relates to the field of agriculture and can be used in the processing of liquid manure coming from livestock farms with unprotected keeping of animals, mainly cattle.

 Known systems for the mechanical separation of liquid manure of cattle, including drum vibrating screens and centrifuges (Pismenov V. N. The receipt and use of bedless manure. - M .: Rosagropromizdat, 1988, p. 104).

 The disadvantages of such devices include low productivity, energy consumption, complexity in the device and operation.

 The closest in technical essence to the claimed invention is a horizontal manure accumulator, including a concrete trapezoidal tank, equipped with a ramp, drainage, a gate valve in the end wall and a filter element in the form of fascines (Pismenov V.N. Production and use of litterless manure. - M.: Rosagropromizdat 1988, p. 92-100).

 However, when using horizontal drives to separate cattle manure, siltation of filtering and drainage elements occurs quickly, which leads to their low throughput and the need for frequent replacement or regeneration. In addition, due to the difference in the stratification rate of cattle manure, “lagoons” filled with liquid form in the reservoirs, which reduces the separation efficiency and makes it difficult to unload the solid fraction of manure.

 The objective of the invention is to increase the efficiency of the natural separation of cattle manure.

 The problem is achieved in that the filter element is made in the form of a perforated cloth placed in front of the shutter shutter and fixed along the bottom and side walls of the tank and the upper edge along the top of the end wall, which in the lower part is equipped with stops with ring-shaped inflatable elastic chambers fixed between them . In this case, the stops are made in the form of beams inclined to the end wall of beams with a length of not more than one and a half diameters of inflatable elastic chambers, and the latter are connected to a controlled air supply system.

 The technical result of the invention is created through the use of inflatable elastic chambers providing oscillatory movement of the filter element and the dung mass in the settling tank, which ensures the regeneration of the filter element, intensive dewatering of manure and the formation of lagoons during separation of the liquid manure of cattle, and the use of inflatable elastic chambers of annular shape reduces air consumption.

 In FIG. 1 shows a sedimentation tank, top view; figure 2 is the same side view; figure 3 - the position of the filter element in working condition, section aa; in FIG. 4 - position of the filter element during regeneration, section AA.

 The storage sump includes a trapezoidal concrete tank 1 with a ramp 2 for unloading the solid fraction of manure, a chandler gate 3 in the end wall 4, stops 5, a filter element in the form of a perforated cloth 6 made of elastic fabric, inflatable elastic chambers 7 of a ring shape, an adjustable air supply system 8.

 The stops 5 in the form of inclined beams are installed in the lower part of the end wall 4 and have a length of not more than one and a half diameters of the inflatable elastic chambers 7 installed and fixed between the stops and connected to the adjustable air supply system 8.

 The blade 6 is freely laid on the stops 5 and fixed by the edges along the bottom and walls of the tank 1, and the upper edge is fixed on top of the end wall 4.

 The cattle manure storage tank operates as follows.

 The liquid manure of cattle enters the tank 1, where there is a natural separation into liquid and solid fractions. The liquid fraction through the perforated web 6 and the screw gate 3 is discharged from the tank 1 into the receiver of the liquid fraction (not shown), and the solid fraction, due to the difference in the delamination rate, settles in the form of suspended solids and floats to the surface in the form of large inclusions. The perforated fabric 6 while lying on the stops 5 (figure 3).

 During the discharge of the liquid fraction, the holes in the perforated web become clogged and the filtration rate decreases. To clean the perforation of the web 6 using an adjustable air supply system 8, for example, by a compressor, air is fed into inflatable elastic chambers 7.

 This creates a wave-like movement of the blade 6 together with the mass of manure in the tank 1 (figure 4). Then the air from the inflatable chambers 7 is discharged. The process is periodically repeated until the necessary dehydration of the solid fraction of manure is provided. To enhance the effect of the oscillatory movement of the perforated web 6 is possible by alternately supplying air to the inflatable chambers 7 using the system of adjustable air supply 8.

 Removing the solid fraction of manure from the sump of the drive is carried out by vehicles.

Claims (3)

 1. A cattle manure sedimentation tank comprising a concrete tank, in the end wall of which there is a chandler gate and a filter element, characterized in that the filter element is made in the form of a perforated cloth placed in front of the chandler gate and fixed with edges along the bottom and side walls of the tank and the upper edge - on top of the end wall, which in the lower part is equipped with stops with ring-shaped inflatable elastic chambers fixed between them.  2. The storage tank under item 1, characterized in that the stops are made in the form of beams inclined to the end wall of beams with a length of not more than one and a half diameters of inflatable elastic chambers.  3. The storage tank according to claim 1, characterized in that the inflatable elastic chambers are connected to a controlled air supply system.

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