RU2693773C1 - Small-sized machine for separation of wastes of enterprises for growing farm animals - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to equipment for separation of wastes of enterprises for growing agricultural animals into liquid and thickened fractions, to food industry, for example, for dehydration of raw materials during production of pectin, separation of liquid phase from loose materials, during drying of materials. Small-sized machine for separation of wastes of enterprises for growing farm animals comprises housing, loader, filter, drive, unloading device for discharge of thickened fraction, unloading device for filtrate discharge, perforated filter equipped with loading and unloading trunks, made in form of multi-sided perforated prism with flat perforated faces along its perimeter installed at acute angle relative to horizontal axis of rotation and with flat end perforated cheeks of polygonal shape arranged at different angles to rotational axis of perforated prism and to each other. Longest axes of the end face perforated cheeks of the polygonal shape coincide with each other or are turned along the rotational axis of the perforated rotor relative to each other. Housing is equipped with a bioweep extractor from the top and a slug for draining the filtrate from the bottom outside the vibrating housing, which together with the perforated filter, the loading and unloading journals is fixed on a frame elastically mounted on the base. Two-stage spring of trapezoid shape is rigidly fixed in loading trunnion by large diameter, while its stage of smaller diameter is cantilevered and enters at least three turns in tip of loading facility. Warm air supply pipeline is mounted into the loading trunnion for imparting movement to wastes in the loading trunnion from the loading means to the filter. Spring of trapezoidal shape is rigidly fixed in discharge trunnion. On the side of the unloading trunnion in the filter there is a condensed fraction trap mounted in the form of three or more plates inclined towards the unloading trunnion and rigidly attached to the face cheek.

EFFECT: technical result is expansion of technological capabilities of separation of wastes of a fatigue complex into liquid and condensed fractions, increase of productivity, efficiency and quality of waste separation, improvement of ecological situation by utilization of biogas (methane and hydrogen) and its further processing.

1 cl, 7 dwg

Description

The invention relates to agriculture, in particular, to equipment for the separation of waste enterprises for growing agricultural animals into condensed and liquid fractions and the utilization of biogas; to the food industry, for example, for dewatering raw materials in the production of pectin, for separating the liquid phase from bulk materials, for drying materials.

Known machine for dewatering manure (patent No. 2546200, CL A01S 3/00, publ. 10.04.2015, Byul. No. 10), comprising a housing, means for loading, filter, drive, discharge device for removal of the thickened fraction, discharge device for filtrate drainage. The filter with perforated walls around the perimeter is made conical, the axis of which makes an acute angle with the axis of its rotation, and the filter end cheeks are perforated elliptical in shape, with large diameters of the end cheeks rotated along the axis of the conical surface relative to each other at an angle of 0-360 ° and mounted at an acute angle of 10-90 °, not only one to the other, but also at different angles to the axis of rotation of the filter, while along the entire length of the filter a spring of conical shape with a flat cross section of the coils and with direction is mounted turns, coinciding with the direction of rotation of the filter, which is equipped with a device for changing the step of the turns by stretching or compressing it.

The disadvantages of the known construction are limited technological capabilities, insufficient productivity and efficiency, the quality of manure dehydration and a significant release of biogas, which worsens the ecological situation in the nearby area.

Closest to the proposed invention is a machine for separating the liquid fraction from materials (patent No. 2549408, class B01D 33/27, publ. 04/27/2015, Bull. No. 12) comprising a housing, a means for loading, a filter, an actuator, discharge devices for removal of the condensed and liquid fraction, in which the filter is made in the form of a perforated cylinder installed obliquely at an angle relative to the horizontal axis of rotation with flat perforated end walls of an elliptical shape placed at different angles β and ψ to the axis of rotation and to the other at an angle φ. The axes of large diameters of the ellipses of the walls are parallel or rotated along the axis of rotation of the filter relative to each other. Along the length of the filter, along its axis of rotation, a conical spring is mounted with a flat cross-section of the coils so that the small diameter of the conical spring is placed inside the loading trunnion, and the large diameter of the conical spring is mounted at the discharge trunnion. The spring is equipped with a device for changing the pitch of coils by stretching or compressing it.

The disadvantages of the known machine design are limited technological capabilities, insufficient performance and efficiency, the quality of the separation of the liquid phase from materials and a significant release of biogas, which degrades the environmental situation in the surrounding area.

The technical solution of the problem is to expand the technological capabilities of the separation of waste enterprises for growing agricultural animals of the fattening complex into liquid and condensed fractions, increasing productivity, efficiency and quality of waste separation, improving the environmental situation by utilizing biogas (methane and hydrogen) for further processing.

The task is achieved by the fact that in a small-sized machine for separation of waste enterprises for growing farm animals, comprising a housing, means for loading, filter, drive, discharge device for removal of the thickened fraction, discharge device for removal of filtrate, perforated filter equipped with loading and unloading pins made in the form of a multifaceted perforated prism with flat perforated plates installed at an acute angle α relative to the horizontal axis of rotation and faces around its perimeter and with flat end perforated cheeks of polygonal shape, placed at different angles β and ψ to the axis of rotation of the perforated prism and towards each other at an angle ϕ, with the longest axes of the end perforated cheeks of polygonal shape coincide with or rotated along the axis of rotation of the perforated rotor relative to each other at an angle ω, and the case is provided on top with an exhaust hood for utilizing biogas, on the bottom - with a slise for draining the filtrate beyond the limits of the vibrating case, which together with the perfo The loaded filter, loading and unloading pins are fixed on the frame, elastically mounted on the base, while the loading pin is rigidly fixed with a large diameter two-stage trapezoidal spring, and its smaller diameter stage is mounted in a cantilever and enters at least three turns into the toe of the loading means, A warm air supply pipeline is mounted in the loading trunnion to impart movement of waste to the loading trunnion from the means for loading to the filter, and in the discharge trunnion is rigidly fixed A trapezoidal spring and on the side of the unloading pin in the filter is mounted a catcher of the condensed fraction made in the form of three or more plates rigidly attached to the end cheek, inclined toward the discharge pin at an acute angle θ to the plane of the end cheek in the direction of rotation of the filter and rigidly attached to the hollow the conic plug entering into internal diameter of a spring of an unloading pin.

According to the patent-technical literature, no technical solution was found, similar to the claimed one, which allows to judge about the inventive level of the proposed design of a small-sized machine for separation of waste from farms that grow agricultural animals.

The novelty lies in the fact that the perforated filter equipped with loading and unloading pins is made in the form of a multifaceted perforated prism installed at an acute angle α relative to the horizontal axis of rotation with flat perforated edges around its perimeter and with flat end perforated cheeks of polygonal shape placed at various angles β and ψ to the axis of rotation of the perforated prism and to each other at an angle ϕ, with the longest axes of the end perforated cheeks of the polygonal shape matching give each other or rotated perforated rotor axis of rotation relative to each other by angle ω, and the case is equipped with an exhaust hood for biogas utilization, at the bottom - with a slip for removal of filtrate beyond the vibrating case, which, together with the perforated filter, is attached to the loading and unloading trunks frame, elastically mounted on the base, which creates oscillations due to the mass imbalance of the perforated rotor itself, which has an axis of rotation, which does not coincide with its axis and the masses of wastes loaded into it full-time complex. This technical solution gives and ensures the simultaneous effect of these fluctuations on the waste of the feeding complex in three mutually perpendicular directions, enhances the effect of oscillations of the entire plant design on the waste separation process on the liquid and solid fractions, increases the intensity of biogas extraction, which expands technological capabilities, increases productivity, efficiency and the quality of waste separation improves the environmental situation by utilizing biogas (methane and hydrogen) to further first of its processing.

The novelty lies in the fact that the combined effect of the rotational movement of the perforated filter and the waste moving inside it and the combination of frame oscillations with this body with a perforated filter fixed on it, gives the waste of the fattening complex a complex spatial movement, which increases the productivity, efficiency and quality of waste separation as well as the intensity of biogas emission from the waste of the fattening complex.

The novelty lies in the fact that the centers of symmetry of the inner surface of the perforated filter in each element of the cross section along its length are offset relative to the axis of rotation, which violates not only the stationarity of the movement of waste particles, expands technological capabilities, but also contributes to creating eccentricity and oscillation of the perforated filter together with body and frame.

The novelty also lies in the fact that the filter is provided with trunnions and a large diameter two-stage trapezoidal spring is rigidly fixed in the loading trunnion, and its smaller diameter stage is mounted in a cantilever and includes at least three turns of the loading means, and a warm supply pipe is mounted in the loading trunnion air, to impart movement of waste in the boot axle from the means for loading to the filter, and in the discharge axle a spring of a trapezoidal shape is rigidly fixed on the side of the discharge center Pfa in the filter is mounted a catcher of the condensed fraction, made in the form of three or more plates rigidly attached to the face cheek, inclined towards the discharge pin at an acute angle θ to the plane of the end cheek in the direction of rotation of the filter and rigidly fastened to the hollow conical bushing entering the inner diameter springs of an unloading pin, which expands the technological possibilities of separation of waste of enterprises for growing farm animals into liquid and condensed fractions, increases the productivity st, efficiency and quality of waste separation and biogas emission rate of waste feeding complex.

The novelty lies in the fact that the centers of symmetry of the inner surface of the perforated filter in each element of the cross section along its length are offset relative to the axis of rotation, which violates not only the stationarity of the movement of waste particles, expands technological capabilities, but also contributes to creating eccentricity and oscillation of the perforated filter together with body and frame.

The novelty lies in the fact that the perforated filter is installed as a perforated prism installed obliquely relative to the horizontal axis with perforated end cheeks placed at different angles not only to the horizontal axis of rotation but also to each other growing farm animals that perform complex spatial movement in a vertical plane - along elliptical paths, since along the perimeter perforated filter is formed as an oblique prism and a horizontal plane - reciprocation, which improves performance, efficiency and quality of waste separation and biogas emission rate of waste feeding complex.

The novelty lies in the fact that such a constructive design of the filter creates an imbalance in the rotating perforated filter, which gives it and the body low-frequency oscillations, which not only intensify the separation process of the fattening complex, but also ensure the reliability of the filtrate movement along the slip and take it out of the vibrating enclosures.

The novelty also lies in the fact that the casing is equipped with an exhaust hood for biogas utilization, at the bottom - with a sliz for removing the filtrate outside the vibrating housing, and a pipeline is installed in the loading trunnion to transfer waste inside it from the means for loading to the filter, which not only improves the environmental situation adjacent territory, but also provides the utilization of biogas (methane and hydrogen) for further processing and obtaining additional economic benefits through the implementation of this product.

The novelty is also seen in the fact that the surface around the perimeter of the filter is multifaceted, the axis of which makes an acute angle with the axis of its rotation and therefore the position of the centers of symmetry of the filter in the form of ellipses in the process of its rotation is movable, which increases the energy intensity of the interaction of waste streams, increases productivity, efficiency and the quality of waste separation, as well as the intensity of biogas emission from the waste of the feeding complex.

The novelty also lies in the fact that the flat end perforated cheeks are polygonal in shape, mounted at an acute angle of 5-85 ° one to another and at different angles to the axis of rotation of the filter, and also rotated relative to each other at an angle of 0-360 °, which violates stationarity the movement of waste streams of enterprises for growing farm animals, therefore the size and place of their active interaction noticeably changes during one turn of the filter, which provides not only self-cleaning of the openings of a multifaceted surface filter and the end of the cheeks, but also extends the technological capabilities and increasing productivity.

The novelty is also seen in the fact that the location of the multi-faceted cheeks at an acute angle to the axis of rotation of the multi-faceted conical filter surface provides not only the pressure difference on the waste particles of enterprises for raising farm animals inside the filter, but also moving them from loading to unloading.

The novelty also lies in the fact that the particles of the condensed fraction from the filter are removed by a continuous stream by the catcher of the condensed fraction mounted inside the filter and rigidly attached to the end cheek, and transferred by a continuous stream from the filter cavity to the discharge pivot where the helical spring is transported and removed outside the machine and get into the tank to collect the condensed fraction, while the condensed fraction from the filter in the discharge pin is displayed not only with the help of three platinum, inclined towards the discharge pin at an acute angle to the plane of the end cheek in the direction of rotation of the filter and rigidly fastened with a hollow conical bushing that enters the inner diameter of the helical spring of the unloading trunnion, but also through the internal opening of the conical bushing, which ensures the continuity of movement of waste enterprises for growing agricultural animals and in particular, the condensed fraction increases the productivity and quality of waste separation into fractions.

The invention is illustrated by drawings, where in FIG. 1 shows a small-sized machine for the separation of waste from farms for growing farm animals, a longitudinal section; in fig. 2 shows section A-A in FIG. one; in fig. 3 - perforated filter with pins with perforated cheeks, the longest axes of which coincide with each other; in fig. 4 shows a section BB in FIG. 3; in fig. 5 - catcher of the condensed fraction, visual image; FIG. 6 is a pictorial image of a perforated filter with perforated cheeks, the longest axes of which are rotated along the axis of the perforated filter relative to each other at an angle ω; in fig. 7 is a view of B in FIG. 6

Small-sized machine for separation of waste from enterprises for growing farm animals (Fig. 1, Fig. 2, Fig. 3, Fig. 4) includes a housing 1 and a hollow perforated filter 2 mounted therein with two trunks 3 and 4 mounted for rotation (drive not shown in the drawing). The machine is equipped with a means for loading 5. In the case 1, an exhaust hood 6 is mounted on top for biogas utilization and the bottom 7 is for taking the filtrate out of the vibrating case 1, which, together with the perforated filter 2 and trunnies 3 and 4, is fixed on a rectangular frame 8, elastically mounted on the base 9 with the help of four elastic elements 10. In the loading trunnion 3 the two-stage spring 11 is rigidly fixed with a trapezoidal shape, and its step of smaller diameter 12 is mounted console and enters at least two turns into the nose Means 13 for loading 5, wherein in the charging pin 3 mounted warm air supply conduit (not shown) for imparting further movement of waste loading pin 3 by means of for loading the filter 2 to 5.

The perforated filter 2 (Fig. 3, Fig. 4) is installed at an acute angle a to the axis of its rotation and made in the form of a multifaceted perforated prism with flat perforated edges around its perimeter and with flat end perforated cheeks of polygonal shape 14 and 15 mounted under sharp angle β = 5-85 ° to each other and at different angles to the axis of rotation of the filter 2, while can be rotated relative to each other at an angle ϕ = 0-360 ° (Fig. 6 and Fig. 7).

A trapezoidal spring 16 is rigidly fixed in the discharge pin 4 and on the side of the discharge pin 4 in the filter 2 there is mounted a catcher 17 of a condensed fraction made in the form (FIG. 5) of three or more plates 18, 19, 20 tilted in the side of the discharge pin 4 at an acute angle θ to the plane of the cheek end 15 in the direction of rotation of the filter 2 and rigidly fastened with a hollow conical sleeve 21 entering the inside diameter of the spring 16 of the discharge pin 4.

The perforated filter 2 is rotatable in the supports 22 and 23, which are mounted on the frame 8. In the case 1, a rectangular opening 24 is made above the slide 7 to discharge the filtrate beyond the limits of the case 1 into the container 25. The machine is equipped with a tank 26 for receiving the thickened fraction. The direction of the turns of the springs 12, 11, 16 coincides with the direction of rotation of the perforated filter 2.

FIG. 6, FIG. 7, the longest axis of ₁ -i i ₁ and i ₂ -i ₂ apertured end cheeks 14 and 15 of polygonal shape 14 and 15 coincide (i ₁ -i ₂ ≡i ₁ -i _2). FIG. 6 and FIG. 7 show the axes i ₁ -i ₁ and i ₂ -i _{2 of the} end perforated cheeks 14 and 15 of a polygonal shape rotated along the axis of rotation of the perforated filter 2 relative to each other by an angle ω, with i ₂ -i ₂ i ₂ ¹ -i ₂ ¹ .

Such structural design of the perforated filter 2 creates unbalance, which gives it and the housing 1 low-frequency oscillations, which not only intensify the process of separating the waste of enterprises for raising farm animals into liquid and condensed fractions, but also ensure the reliability of movement of the condensed fractions inside the filter 2, pivots 3, 4, as well as the movement of the filtrate along the slide 7 and their output outside the machine. To ensure uninterrupted and sustainable movement of waste from the means for loading 5 through the loading pin 3 to the filter 2 to the loading pin 3, a pipeline for supplying warm air is mounted (not shown).

A trapezoidal spring 16 is rigidly fixed in the discharge trunnion 4 and on the discharge trunnion 4 in the filter 2 a catcher 17 of a condensed fraction is mounted, made in the form of three or more plates 18, 19, 20 rigidly attached to the end cheek 15 tilted to the side of the discharge trunnion 4 at an acute angle to the plane of the end cheek 15 in the direction of rotation of the filter 2 and rigidly fastened with a hollow conical sleeve 21, which is included in the inner diameter of the spring 16 of the discharge point 4.

Small-sized machine for the separation of waste enterprises for growing farm animals into liquid and condensed fractions works as follows.

Waste enterprises for growing farm animals come through the means for loading 5 and trunnion 3 into a rotating perforated filter 2, where they move along different elliptical trajectories, whose dimensions vary along the length of the perforated filter 2 in each cross section due to the unbalance of the vibrating body 1 total small-sized machine for the separation of waste enterprises for growing farm animals, while the particles of waste make a complex spatial movement s in the vertical plane - in elliptical paths. And since the perforated filter 2 is made in the form of a multifaceted perforated prism with flat perforated edges around its perimeter and with flat end perforated cheeks of a polygonal shape, mounted at an acute angle of 5-85 ° to one another and at different angles to the axis of rotation of the filter, while rotated relative to each other at an angle of 0-360 °, the waste particles in the horizontal plane reciprocate.

As a result, the stream of moving waste particles is not stationary, and the size and location of the active movement of waste streams vary noticeably during one revolution of the perforated filter 2. Therefore, as a result of disruption in the orderliness of the process of movement of particles of waste streams, their movement becomes more active, the inactivity zone is eliminated the energy intensity of the collisions of waste particles between themselves and with the walls around the perimeter of the perforated filter 2, as well as with the perforated cheeks 14 and 15, increases; t apertured cleaning their surfaces, expands technological possibilities of waste separation into liquid and condensed fraction, increases productivity, efficiency and quality of waste separation, improves the environment by recycling the biogas (methane and hydrogen) for further processing.

The process of non-stationary movement of waste particles is aggravated by the location of end polygonal perforated cheeks 14 and 15, which significantly changes the direction of movement of waste particles along the axis of rotation of the perforated filter 2 and creates zones of different pressure end perforated cheeks 14 and 15 on waste particles and intensifies the process of their separation. Therefore, the waste particles have the opportunity, under the influence of the geometrical slope of the multi-faceted perforated filter 2 and the pressure difference between the end perforated cheeks of the multi-faceted shape 14 and 15, which are angled to each other and to the axis of rotation of the perforated filter 2, not only move along complex paths, but also move to axial direction, creating turbulent flows. As a result of this intensification of movement, the waste particle streams are divided into fractions. The liquid fraction in the form of a filtrate is discharged beyond the perforated surface of the filter 2, flows down the walls of the housing 1 and enters the inclined 7 of the housing 1, then is discharged through the opening 24 into the container 25. Particles of the condensed fraction using a condenser fraction 17 mounted inside the filter 2, rigidly attached to the front cheek 15 are transmitted in a continuous stream from the cavity of the filter 2 to the inside of the trunnion 4, where the helical spring 16 is transported and transported outside the machine and enter the tank 26 to receive the thickened fraction, n In this case, the condensed fraction from filter 2 in pin 4 is not only brought out by means of three plates 18, 19, 20 inclined towards the discharge pin 4 at an acute angle θ to the plane of the end cheek 15 in the direction of rotation of filter 2 and rigidly fastened with a hollow conical bushing 17, which is included in the internal diameter of the coil spring 16 of the discharge pin, but also through the internal opening of the conical sleeve 21.

The process of movement of particles of waste that rise up and fall down is continuous. Since the internal perforated walls of the filter 2 are located at an angle not only to each other, but also to its axis of rotation, in each portion of the waste, each particle of waste moves along its direction vector towards the discharge side, which greatly intensifies the process of waste separation, expands technological possibilities of separation of waste enterprises for growing agricultural animals into liquid and condensed fractions. With the help of exhaust 6 and a pipeline (not shown), supplying warm air inside the trunnion 3 to impart movement of the waste in the loading trunnion 3 from the load 5 to the filter 2, as well as biogas, which is intensively released when the waste is divided into fractions 2 is recycled and transferred for further processing.

Such structural design of the perforated filter 2 creates unbalance, which gives the perforated filter 2 and the housing 1 low-frequency oscillations, which not only intensify the process of separating waste into liquid and condensed fractions, but also ensure the reliability of movement of the liquid fraction in the form of a filtrate along 7 of the housing 1 and its output outside the small-sized machine.

Technical and economic advantages are provided by expanding technological capabilities, separating waste from farms for growing farm animals into liquid and condensed fractions, increasing productivity, efficiency and quality of waste separation, improving the environment by recycling biogas (methane and hydrogen) for further processing and sale as well as by creating an unbalance in a rotating perforated filter, which gives it and the body low-frequency vibrations, to torye not only intensify the process of separation of wastes, but also provide a reliable transportation of waste and their fractions on the load to be unloaded.

Claims (1)

Small-sized machine for separation of wastes of enterprises for growing farm animals, comprising a housing, a means for loading, a filter, a drive, an unloading device for withdrawing the thickened fraction, an unloading device for discharging filtrate, characterized in that the perforated filter equipped with a loading and unloading trunnions is made as set at an acute angle α with respect to the horizontal axis of rotation of a multifaceted perforated prism with flat perforated edges along its peri The air and with flat butt-shaped perforated cheeks of polygonal shape, placed at different angles β and ψ to the axis of rotation of the perforated prism and at an angle ϕ to each other, while the longest axes of the end perforated cheeks of the polygonal shape coincide with each other or are rotated along the axis of rotation of the perforated rotor relative to each other at an angle ω, and the case is provided with a hood on top for biogas utilization, at the bottom - with a slip for removal of filtrate beyond the limits of the vibrating case, which together with a perforated filter, loading and unloading pins attached to the frame, elastically mounted on the base, while in the boot pin rigidly fixed with a large diameter two-stage spring of a trapezoidal shape, and its smaller stage is mounted console and includes at least three turns in the toe of the loading means, and the loading pin is mounted pipeline for supplying warm air to impart movement to the waste in the loading trunnion from the means for loading to the filter, and the trapezoid spring is rigidly fixed in the discharge trunnion In the form and on the side of the discharge point in the filter, a condenser fraction collector is mounted, made in the form of three or more plates rigidly attached to the end cheek, inclined toward the discharge end at an acute angle θ to the plane of the end cheek in the direction of rotation of the filter and rigidly attached to the conical hollow core sleeve, included in the inner diameter of the spring discharge pin.

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