RU2025929C1 - Liquid manure receiving reservoir - Google Patents

Abstract

FIELD: agricultural engineering. SUBSTANCE: reservoir comprises accumulating 1 and intake 3 chambers intercommunicated by overflow partition 2. Manure mixer is housed in hollow cylindrical container 10 whose lower end has pressure pipe 11 connected with pipeline 6. Liquid manure pump 5 pumps manure out of lower part of intake chamber 3. Surplus manure flows over the edge of overflow port 9 into accumulating chamber 1. Pumped liquid flows into container 10 where upper part of pressure pipe 11 directs it onto conical splitter 12. The latter moves in vertical plane and contributes to intensive mixing of lower layers of manure. EFFECT: improved design. 2 dwg

Description

 The invention relates to agriculture, in particular to devices for the treatment of liquid manure, and can be used in wastewater treatment plants of pig farms.

 A receiving device for liquid manure is known, comprising a sequentially mounted storage tank with a mixer and a pump, a sump with a horizontal screw conveyor and a vertical screw pump located in a chamber located outside the settling zone. The sump is equipped with an inlet flow damper and a tray for draining the liquid fraction and is connected to a filter press, consisting of a perforated vertical casing, narrowed downwards, a chamber for supplying manure, a pressing screw and a casing, divided by height through a partition into sealed chambers for the filtrate, moreover, the upper chamber is connected to the suction pipe of the vacuum pump and is equipped with a water seal, which prevents its communication with the atmosphere when the filtrate is removed. Scrapers are fixed on the auger shaft in the area of the upper chamber for the filtrate to remove sediment from the inner surface of the casing, having the shape of a spiral [1].

 A disadvantage of the known device is the presence of several pumps, which leads to its high energy intensity.

 Closest to the proposed known technical solution is a receiving device for liquid manure, including a container connected to the discharge pipe with a collection chamber buried and buried relative to it, a discharge fecal pump installed in the last of which the discharge pipe is introduced into the collection chamber, and these chambers are divided between themselves a vertically placed partition with a window in the lower part, blocked by a shutter installed with the possibility of rotation in the direction of the intake amers [2].

 In the known device, a fecal pump is used as a means for mixing manure in the storage tank, which complicates the design of the device, increases its cost, and leads to an increase in energy consumption.

 The technical task of the invention is to simplify the design and reduce energy consumption.

 The technical problem is solved due to the fact that in the receiving device for liquid manure, including a storage tank with a receiving chamber adjacent to one of its walls, equipped with a pipe for supplying the original manure, a discharge fecal pump with a discharge pipe located in the lower part of the window with a rotary valve for communication with the storage tank, overflow window, made in the upper part of the common wall, and means for mixing manure in the storage tank, the specified tool is made but in the form of a vertical cylindrical sealed container located in the central part of the storage tank, the lower part of which is mounted in the rupture of the discharge pipe, and in its central part there is a discharge pipe with open ends, one of which is located in the upper part of the container cavity and the other at the bottom reservoir.

 The technical problem is also solved due to the fact that the bottom of the tank under the discharge tube is equipped with a conical divider installed with the possibility of vertical movement.

 Figure 1 shows a diagram of a device, a General view; figure 2 is a section aa in figure 1.

 The device comprises a storage tank 1 with a receiving chamber 3 adjacent to one of its walls 2, provided with a pipe 4 for supplying the original manure, a discharge fecal pump 5 with a discharge pipe 6, a window 7 with a rotary valve 8 for communicating with the storage tank located in the lower part, overflow window 9, made in the upper part of the common wall 2, and means for mixing manure in the storage tank in the form of a tank 10 located in the central part of the tank. The tank 10 is cylindrical second, vertical, hermetic. The lower part of the tank 10 is mounted in the gap of the discharge pipe 6. In the Central part of the tank 10 is installed a discharge pipe 11 with open ends. The upper end of the tube 11 is placed in the upper part of the cavity of the tank 10, and the bottom at the bottom of the tank 1. It is advisable that the bottom of the tank 1 under the discharge tube 11 be equipped with a conical divider 12, mounted with vertical movement, for which it is equipped with a bolt 13 with a nut 14.

 The device operates as follows.

 The original manure is fed through pipeline 4 to the lower part of the intake chamber 3. Valve 8 thus closes the window 7 in the wall 2. The fecal pump 5 constantly pumps out the manure from the lower part of the intake chamber 3 and feeds it for further processing through the pipeline 6. If the amount of manure supplied through the pipeline 4 exceeds the amount of manure pumped out by the pump 5, the level of manure in the chamber 3 gradually increases and when the lower edge of the window 9 reaches, part of the mass is poured into the storage tank 1. In this mode of operation, the chamber 3 performs the function sedimentation tank: the largest and heaviest suspended particles fall into the lower part of the chamber 3 and are immediately pumped for further processing by the pump 5. The rest of the processed mass, which does not contain heavy impurities, is poured through the window 9 and enters the storage tank 1. The pumped mass through a pipe 6 enters the lower part of the tank 10, where its level rises to the inlet upper part of the tube 11, after which the mass is pumped into the lower part of the tank, to its bottom, where the divider 12 moves in the radial direction, displacing and intensively mixing especially the lower layers of manure. Only the most dispersed and lightest moving part of the manure rises through the cavity of the tank and goes down the pipe 11, and manure with heavy and large fractions is displaced from the lower part of the tank 10 and goes further through the pipeline 6 for processing. When reducing or stopping the supply of manure through the pipeline 4 to the chamber 3, its level in the chamber 3 decreases. Due to the hydrostatic pressure in the tank 1, the valve 8 opens and the mass from the tank 1 enters the chamber 3 and is pumped out by the pump 5 for further processing. To adjust the flow of manure supplied through the tube 11 for mixing in the tank, the height of the position of the divider 12 relative to the outlet of the tube 11 is changed with a bolt 13. Moreover, the divider 12 performs the additional function of a locking device.

 The invention allows to simplify the design and reduce its cost due to the use of a pump installed in the receiving chamber to perform the additional function of mixing manure in the tank, which eliminates the fecal pump for mixing manure in the storage tank. It also provides a reduction in energy consumption for the processing of manure.

Claims (1)

 RECEIVING TANK FOR LIQUID MANUSTER, containing the accumulation and intake chambers communicated with each other by means of an overflow partition and a bypass window made in the lower part of the bypass pivoting shutter installed in the intake chamber of the initial manure supply pipe, a device for removing solid fraction, made in the form of a fecal pump connected to the discharge pipe, a means for mixing manure located in the storage chamber, connected with a guide and a regulator for feeding the manure for, characterized in that the means of mixing manure is made in the form of a hollow cylindrical tank vertically located in the middle part of the storage chamber with a discharge pipe installed in its lower end, the upper end of which is placed in the tank, and the lower end faces the bottom of the tank, on which a manure guide is installed under the lower end of the said nozzle, while the specified guide is combined with the manure feed regulator and is made in the form of a conical rassekat I mounted for reciprocating movement in a vertical plane, and the discharge line is situated in the collection chamber.

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