SU865231A1 - Device for pumping manure - Google Patents

Description

(54) DEVICE FOR THE TRANSFER OF MANUR

Claims (2)

The invention relates to manure transfer devices used on livestock. It is natural to transfer manure, which includes a hydraulic cortex connected to the loading neck, inside which the piston H is fitted with a cut-off device, made in the form of a movable cylinder located between the hull and a piston LJ, which is closer to the technical dryness and offered to $ 1. manure, including a vertically mounted bunker narrowing downwards with a frame attached to the upper part of the frame, in the bottom of which there is a dumping hole, arranged inside coaxially ygruznomu opening shshiNdr raaleshenny a piston suspended to the medium frame. power cylinders, and the discharge pipe 2. The disadvantage of these devices owner. The low productivity and the possibility of disinfection of manure in them is low. Objective 1 An increase in the output of the plant and the provision of decontamination of manure. The goal is achieved by g &l; the device is equipped with electrodes attached to the working surface of the piston and a source of impulse currents connected to the above-mentioned electrode, with a hole in the body and a piston connected to the power rod connected to the piston; hole and provided with a return valve, Pan, installed in its lower part. To prevent manure leaks from the shetindra to the hopper when pumping, the device is equipped with a pin fixed in. the upper part of the discharge pipeline, and a spring-loaded nozzle installed in the discharge hole, with flancetl located in the bunker, the outer diameter of which exceeds the outer diameter of the cylinder, and with an inclined groove. in its wall, in which the named pin is freely placed. FIG. I scheme depicts the mouth of a liquid for transferring manure, general view; in fig. 2 is a view A of FIG. one; in fig. 3 construction of the combustion chamber, a fresh cut. The device includes a vertically installed hopper 1 which is narrowed downwards with a frame 2 attached to its upper part, in the bottom of which the discharge opening iJ is made. Inside the bunker, co-axial unloading bridges are installed, the shinshir i superior function of the shut-off device and the piston 5 placed in it, pushing the frame 2 to the frame 2 by means of the power cylinders 6 and 7, respectively. , connected by insulators Yu, flexible high-voltage wires 11 and stationary high-voltage cables 12 with a source of 13 impulse currents. In piston 5, hole 14 is made, and in rod 15 of power cylinder 7, combustion chamber 16 is connected to hole 14 and provided with a check valve 17 installed in its lower part. Channels 18 and 19, respectively, for combustible gas and oxidizer are drawn off, respectively. Connect the end to its damped end and are connected to the other end of the valve. A 2O candle is fixed inside the combustion chamber to ignite the mixture, connected via conductor 21 to the source 13 of impulse currents. The gas distribution system consists of two parts. Its first part contains e JKocTb 22, in which a combustible gas is under pressure, for example propane, a shut-off valve 23, a pressure regulator 24, a rotameter 25, an electric valve 26, a check valve 27, a sintered metal filter 26, which performs the function of blocking the flame, / flexible hose 29 connected to the channel 18 through the NOR nipple. The second part of the gas distribution system, designed to supply an oxidizing agent, for example, air, is scaled similarly to its first part and a tank 31, in which there is pressure {air, a shut-off valve 32, a pressure regulator 33, a rotameter 34, a solenoid 35 of the valve 36 and flexible tshsang 37, 8 14 connected to the channel 19 through the nipple 38. In the upper part of the discharge pipe 8 pin 39 is fixed, and in the discharge opening 3 there is a spring-loaded nozzle 40 with p fitted in the hopper 1 with a flange 41, the outer diameter of which exceeds the outer diameter of the shishshcha 4. The nozzle 40 has an inclined groove 42, executed in its wall, in which the pin 39 is freely dispersed. The device operates as follows. In the initial position, the cylinder 4 and the piston 5 are in the extreme upper position, and the hopper I is filled with the slurry. After the silo is filled with a predetermined level with manure, the cylinder 4 is moved down by means of power cylinders 6 up to the stop in the flange 41 of the branch pipe 4O. Upon further movement of the gaiter 4, the tube 4O is lowered and rotated at a certain angle due to the interaction of the pin 39 with an inclined groove 42. As a result, a contact effect occurs at the point of contact of the lower end of the cylinder 6 with the flange 41, under which the large inclusions are rubbed and cut contained in the pumped manure, which prevents the occurrence of manure leaks from the cylinder to the bunker during subsequent pumping. The latter is ensured by moving down the piston 5 under the action of the power cylinder 7, while the check valve 17 is closed, isolating the combustion chamber 16 from getting into it N € 1. In the lower position of the piston, a high voltage is applied to the electrodes 9 from the source 13, and an electrical discharge occurs between the electrodes, creating an electro-hydraulic shock in Manure, facilitating the movement of manure without a piston. If it is necessary to transfer additional manure in the injection pipe to the water in the kemer 16 of the combustion, explosive combustion is created by igniting the mixture from the candle 20, which results in a sharp increase in pressure inside the chamber. Under the action of the total pressure, the check valve 17 flows through 6 tons and the additional movement of manure at the lower position of the cylinder 4. After the reaction products out of the combustion chamber, there is no need to purge the latter by opening the electric valves 26 and 35 with partial raising of the cylinder. Such a flattening of the device’s constricting device in “gao boosts productivity, and also provides decontamination of manure due to its contact with detonation products and the effect of electrostatic current on it. In addition, due to the rotation of the nozzle in the injection pipe and its interaction with an immobile cylinder, manure leakage is prevented. From the cylinder to the bunker during pumping. Formula I. invention apparatus .perekachki manure comprising vershkalsh ustanovlshny tapered KSH13U hopper {fikreaoleknoy wahn to its frame part, into which Dnishev vtolneno BL ruznoe hole raspsmyuzhennye bushsera coaxially inside you overweight opening that serves matfiaap | ny therein porosen suspended from the frame by means of power cylinders, and the discharge T17 pipeline, characterized by the fact that, in order to maintain the performance and ensure the decontamination of manure, it is supplied with electrodes attached to the working surface. and a source of impulse currents connected to the named electrodes, and a hole is made in the piston and a combustion chamber in the power cylinder stem connected to the piston is combined with an ogherst & frequent 2. The device according to p. I, about t l and ch e to e with it, that, in order to prevent manure leaks from the shshshra into the hopper during pumping, it is equipped with a pin fixed in the upper part of the discharge pipeline, and installed in the discharge The hole is a spring-loaded nozzle with flanzetl located in the hopper, the outer diameter of the Kotoporo u raises the outer diameter of the shaft, and with an inclined groove protruded in its wall, in which the pin is freely placed. Sources of information taken into account during the examination 1. USSR author's certificate No. 570347, cl. A O1 K 1 / O1, 197S. 2.ABTojKJKoe certificate of the USSR No. 615901, cl. And O1 K 1/01, 1977 (prototype) P 3 7