RU2471388C2 - Installation of portioned uhf-treatment of fodders - Google Patents

Abstract

FIELD: food industry.

SUBSTANCE: invention relates to devices for cyclic UHF-treatment of rape seeds, grains of soya, lupine and feedstuffs as well as to their fungi, viruses and bacteria disinfection. The installation contains a working chamber with a loading and an unloading gateways, a decondensation device in the form of a shaft with blades placed in the chamber. A UHF-radiation source connected by means of a transmission line to the UHF-generator is placed on the working chamber surface. The working chamber and the UHF-radiation source are designed in the form of sphere. A guiding radome, having a semi-sphere shape and a charging hole with diameter d equal to 80-100 mm, simultaneously serving as a funnel for loading fodders, is installed inside the spherical working chamber under the loading gateway. The decondensation device is a pseudo-liquefaction unit placed in the lower part of the spherical working chamber. The device blades are mounted on the shaft rotating at a rate of 350-400 rpm at an angle to the horizontal plane not exceeding the angle of natural slope of the fodder being treated at a distance H equal to (1/3-1/4)R from the mounting axis to the lower part of the spherical chamber, linear rate at the shafts ends being 5-6 m/s. The clearance between the inner surface of the spherical chamber and the blades ends δ is equal to 0.4-0.6 mm. The blades ends match the inner surface of the spherical chamber. The working chamber volume load coefficient (K) is equal to 0.4-0.5.

EFFECT: invention usage allows to enhance fodders treatment quality.

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Description

The invention relates to devices for cyclic microwave processing of rapeseed, soybean, lupine and mixed feed, as well as their disinfection from fungi, viruses, bacteria, and can be used on livestock farms and on-farm feed mills.

The well-known "Method and device for processing agricultural products" (RU 2242906, C2, A23L 3/40, F26V 7/00, 12/27/2004), which provides a periodic effect on the raw material of radiation sources by rotating trays around the base axis with periodic by approaching them to radiation sources and removing with a constant direction the mass of the raw material towards radiation, moreover, when processing radiation, they carry out a complex effect of ultrasonic elastic vibrations of infrared and microwave radiation.

The above method, implemented in the device, does not provide a concentration of IR and microwave energy on the processed product, since during processing the distance between the processed product and the radiation sources is constantly changing.

The well-known "Installation for the heat treatment of grain and animal feed" (RU 2280396, C1, A23N 17/00, 07/27/2006) - taken as a prototype in which the working chamber is combined with a system for generating and supplying heat for processing simultaneously or separately conductively convective and paroconventive methods in the fluidized bed of grain or animal feed.

In this installation, the presence of additional blades mounted on the shaft in tiers violates the integrity of the fluidized flow created by the lower blades, since multiple mixing occurs when the processed material passes down. The execution of the working chamber in the upper part of the rectangular and the location of the swirls in several places (2-4 swirls) allows the material to be processed to reach the cover and stick to it. The multifunctionality of processing modes, the universalization of the design, the cyclical nature of its operation and the loss of heat into the atmosphere complicate its use and lead to high specific energy costs (high energy intensity).

The objective of the invention is to create an installation for batch microwave processing of feed, which improves the quality of feed processing at a given processing time (exposure) with maximum use of the efficiency of the device, while reducing energy and material costs.

The task is achieved in that in the installation of batch microwave processing of feed containing a working chamber with loading and unloading locks with a loosening device in the chamber in the form of a shaft with blades, the new one is that on the surface of the working chamber there is a microwave radiation source connected by means of a transmission line with a microwave generator, and the working chamber itself and the microwave radiation source are made in the form of a sphere; inside the working spherical chamber, under the loading lock, there is installed a hemispherical fairing, which simultaneously serves as a funnel for feeding feed with a filling hole diameter d = 80-100 mm, while the loosening device is a fluidization unit located in the lower part of the working spherical chamber, of the blade which are mounted on a shaft rotating at a speed of 350-400 rpm, at an angle to the horizontal plane, not exceeding the angle of repose of the processed feed at a distance of H = (1 / 3-1 / 4) R from attachments to the bottom of the spherical chamber and have a linear velocity at the ends of 5-6 m / s, the gap between the inner surface of the spherical chamber and the ends of the blades δ = 0.4-0.6 mm, and the ends of the blades themselves repeat the inner surface of the spherical chamber while the load factor of the volume of the working chamber K = 0.4-0.5.

The implementation of the working chamber and the source of microwave radiation (multilayer, multi-coil inductor) located on the surface of the working chamber in the form of a sphere can improve the quality of feed processing, because when using this design, electromagnetic waves are concentrated in the center of the working chamber, and the presence of a fluidization unit made in the form of a shaft rotating at a speed of 350-400 rpm with mounted on it at an angle to the horizontal plane, not exceeding the angle of repose of the processed feed at a distance of N = (1 / 3-1 / 4) R, by the blades, at which the blades at their ends have a linear speed of 5-6 m / s, a guide fairing made in the form of a hemisphere, and loading the spherical chamber itself with a load factor of K = 0, 4-0.5 (depending on the processed feed, for example, feed, rapeseed, soybean or lupine grains) allows you to create a stable circulating fluidized stream (a mixture of processed feed and air, flowing like a liquid) around the entire perimeter (360 °) of the internal working the surface of the spherical chamber, while the angle of natural opening the wasp depends on the material being processed (for example, for rapeseed α = 25-30 °, soybean - α = 24-31 ° and lupine - α = 24-30 °); the values of the shaft rotation speed, the distance H from the bottom of the spherical chamber to the axis of attachment of the blades, the linear speed of the ends of the blades, the gap between the ends of the blades and the inner surface of the spherical chamber 5, as well as filling the spherical chamber with the processed feed at a given load factor K, were obtained experimentally and are, in aggregate, the main condition for high-quality processing, in which each component particle is processed without interference by microwave energy, which also allows to increase the efficiency of the device. The diameter of the filling hole d = 80-100 mm is optimal, it depends on the processed feed and does not allow it to accumulate during loading.

The drawing shows a General view of the installation of batch microwave processing of feed.

The batch microwave feed processing installation comprises a microwave generator 1 connected via a transmission line 2 to a microwave radiation source 3 (multilayer, multi-coil inductor) made in the form of a sphere and located on the surface of a spherical working chamber 4 provided with an inlet loading gateway 5, under which a guide fairing 6 is fixed, having the shape of a hemisphere and serving simultaneously as a funnel for loading feed with a filling hole diameter d = 80-100 mm. In the lower part of the spherical working chamber 4, a fluidization unit is installed, made in the form of a vertical shaft 7, rotating at a speed of 350-400 rpm, on which are fixed at an angle to the horizontal plane, not exceeding the angle of repose of the processed feed at a distance of H = (1 / 3-1 / 4) R from the axis of attachment to the lower part of the spherical chamber of the blade 8, with a gap to the inner surface of the spherical working chamber δ = 0.4-0.6 mm and having a linear velocity at the ends of 5-6 m / s. Under the fluidization unit, the discharge gateway 9 is located at the outlet of the spherical working chamber.

Installation of portioned microwave feed processing works as follows. When the microwave generator 1 is operating, electromagnetic waves through the transmission line 2 and the microwave radiation source 3 (multilayer, multi-turn inductor) excite electromagnetic oscillations in the spherical working chamber 4, into which, with the discharge gateway 9 closed and the load gateway 5 open, along the guide fairing 6, made in the form of a hemisphere and serving simultaneously as a funnel for loading feed with a filling hole diameter d = 80-100 mm, the set portion of processed feed (for example, rapeseed, soybean or lupine seeds, bikorma) with loading factor of the spherical volume of the working chamber 4, equal to K = 0.4-0.5. Next, the loading gateway 5 is closed and the fluidization unit is turned on by rotation, at a speed of 350-400 rpm, of a vertical shaft 7 with it fixed at an angle to the horizontal plane, not exceeding the angle of repose of the processed feed, at a distance of H = 1 / 4 R from the axis of attachment to the lower part of the spherical chamber, by blades 8 having a gap between the inner surface of the spherical working chamber and their ends δ = 0.4-0.6 mm and a linear velocity at the ends of 5-6 m / s. The material loaded into the spherical working chamber is captured by the blades, discarded by them (firewood) from the center to the inner surface of the working spherical chamber and, having the speed of the end of the blades, moves upward along it, reaching the guide fairing 6, which removes the fluidized flow and directs it down the axis, This is also facilitated by the vacuum created by the blades 8 in this space of the spherical working chamber 4. Thus, a stably circulating fluidized stream (a mixture of processed feed and air, flowing like liquid around the entire perimeter - 360 °, the inner surface of the spherical working chamber 4), having a high homogeneity of the mixture, in which each component particle of the processed material is comprehensively subjected to microwave processing without interference, which in turn creates a condition for high efficiency of the device. After the set processing time (exposure) has elapsed, the discharge gateway 9 is opened, located at the bottom of the spherical working chamber at the outlet, and when the blasting unit is operating with blades 8, the processed feed is unloaded. Next, the cycle repeats. Processing time (exposure) is set depending on the type of processed feed.

Thus, the proposed installation of batch microwave processing of feed allows to ensure high-quality processing and disinfection of various types of feed with maximum use of efficiency and reduction of energy and material costs.

Claims (1)

Installation of batch microwave processing of feeds containing a working chamber with loading and unloading locks, a loosening device located in the chamber in the form of a shaft with blades, characterized in that on the surface of the working chamber there is a microwave radiation source connected via a transmission line to a microwave generator , and the working chamber itself and the microwave radiation source are made in the form of a sphere; inside the working spherical chamber, under the loading lock, a hemispherical fairing is installed, which is in the form of a hemisphere and simultaneously serves as a funnel for feeding feed with a filling hole diameter d = 80 -100 mm, while the loosening device is a fluidization unit located in the lower part of the working spherical chamber, of the blade which are mounted on a shaft rotating at a speed of 350-400 rpm, at an angle to the horizontal plane, not exceeding the angle of repose of the processed feed at a distance H = (1 / 3-1 / 4) R from о and fastenings to the bottom of the spherical chamber, and have a linear velocity at the ends of 5-6 m / s, the gap between the inner surface of the spherical chamber and the ends of the blades δ = 0.4-0.6 mm, and the ends of the blades themselves repeat the inner surface of the spherical camera, while the load factor of the volume of the working chamber K = 0.4-0.5.