RU2471391C2 - Installation for heat disinfection of crumbled feedstuffs - Google Patents

Abstract

FIELD: food industry.

SUBSTANCE: invention relates to farm industry, in particular, to devices for UHF-treatment of feedstuffs. The installation contains a chamber, a UHF-radiation source, a cooling system and a heated air flow direction system. The working chamber in the shape of a cylinder is placed inside the UHF-radiation source and is equipped with a booster installed in the lower part of the chamber. The booster consists of a vertical shaft whereon blades are mounted along a helical line at 90° that are designed in the form of an Archimedian spiral with incurvity towards the rotation direction. The working chamber is connected by means of the charging nipple to the receptacle bin and to the heat exchanger positioned in the latter and by means of the discharging nipple - to the volumetric doser. Positioned under the doser is the cooling system in the form of a cooling device with hollow walls and a cooling element integrated into the cooling device; the cooling element is connected by means of the heated air flow direction system to the heat exchanger of the receptacle bin and to the centrifugal ventilator The installation operates both in a continuous and a cyclic mode.

EFFECT: invention usage allows to implement quality UHF-treatment of feedstuffs.

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Description

The invention relates to a device for microwave processing of animal feed, rapeseed, soybean, lupine and other high protein ingredients, as well as their disinfection from fungi, bacteria, viruses and can be used on livestock farms and on-farm feed mills.

It is known "Device for continuous microwave processing of products" (SU 1316645 A1, A23L 3/32, Н05В 6/78, 06/15/1987), which provides continuous operation, however, the combination of the functions of the conductive element (inductor) with the functions of the working body to implement it is almost unlikely to be possible, while the device does not allow to withstand and adjust the exposure of processing various types of raw materials, and in a zigzag gap it is impossible to ensure uniform processing of the compressed product.

The well-known "Method and device for processing agricultural products" (RU 2242906 C2, A23L 3/40, F26V 7/00, 12/27/2004) - taken as a prototype that provides periodic exposure of raw materials to radiation sources by rotating trays around the base axes with their periodic approaching to radiation sources and removal with a constant direction of the mass of raw material towards radiation, moreover, when radiation is treated, the ultrasonic elastic vibrations of infrared and microwave radiation are combined.

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 objective of the invention is to create a universal installation for continuous continuous and cyclical microwave processing of feed, which allows for adjusting the exposure of the processed raw materials, to reduce energy costs for a given quality of processing feed.

The problem is achieved in that in the installation of thermal disinfection of loose feed containing a chamber, a microwave source, a cooling system and a system for removing heated air flow, the new one is that the working chamber has a cylinder shape, is located inside the microwave radiation source and is equipped with a stimulator installed in its lower part, consisting of a vertical shaft, on which blades are fixed along a helical line through 90 °, made in the form of an Archimedean spiral with concavity in the direction of rotation, at Ohm, the working chamber is connected through a loading nozzle to a receiving hopper, with a heat exchanger located in it, and through an unloading nozzle with a volume dispenser, under which there is a cooling system in the form of a cooler with hollow walls and a cooling element integrated in it, connected by a heated air flow direction system with the heat exchanger of the receiving hopper, and a centrifugal fan, and the installation works both in continuous and in cyclic modes.

Feed grain and other components used for the production of animal feed are often largely seeded with microorganisms, the intensive development of which leads to spoilage of the product, losses in the mass of dry matter, and a decrease in its quality. Depending on the temperature optimum, all microorganisms are divided into cold-resistant (psychrophilic), heat-loving (thermophilic) and having an optimum at medium temperatures (mesophilic). The microflora of grain mainly consists of mesophylls having a maximum survival temperature of 45 ° C (V.I.Syrovatka. Machine technologies for preparing compound feeds on farms. Moscow, 2010, p. 114). To increase the nutritional value and sterilization of compound feeds from microorganisms, thermomechanical processing methods are used: granulation, expansion, micronization and extrusion. All of these methods are effective, but very energy intensive. The specific energy consumption is 2-3 times higher than for the preparation of bulk feed (V.I.Syrovatka. Machine technology for the preparation of feed in farms. Moscow, 2010, pp. 118-123). In addition, it is known that when the moisture content of grain ingredients is 10–16%, the humidity of fungi, bacteria, viruses, and other pathogenic and parasitic organisms in them is 30–40%. The sterilization effect increases due to the selective heating of the microwave energy by the wetter component (patent 2033054, A23K 3/00, 04/20/1995).

Therefore, the proposed installation is designed both for continuous (in-line) operation, and for operation cyclically with deep disinfection of individual components or animal feed.

The location of the working cylindrical chamber inside the conductive element (multilayer, multi-turn inductor) allows the full use of microwave energy during processing, namely, heating to the maximum survival point of microorganisms - 80 ° C (V.I.Syrovatka. Machine technologies for preparing compound feeds on farms. Moscow, 2010, Table 3.2). The presence of a stimulator allows you to move the processed material during processing, and the blades mounted on its shaft along a helix through 90 °, made in the form of an Archimedean spiral with concavity in the direction of rotation, reliably capture feed at the walls of the cylindrical working chamber and move it to the discharge pipe. During continuous operation of the unit, the volumetric batcher regulates the flow of the processed material, and its productivity is defined as:

,

,

where: W is the capacity of the cylindrical working chamber in kg;

T - processing time (exposure) in sec.

And when the unit is in operation, the cyclically volumetric dispenser is a shutter. The implementation of the cooling system in the form of a cooler with hollow walls and a built-in cooling element in it allows you to take warm air from the processed material and direct it through the heated air flow exhaust system to the heat exchanger of the receiving hopper, through which the material coming to the processing will be preheated, which allows multiple lower specific energy costs.

The essence of the invention is illustrated by drawings: figure 1 - diagram of the installation of thermal disinfection of loose feed, figure 2 - section aa in figure 1.

The thermal disinfection of bulk feed contains a receiving hopper 1 with a heat exchanger 2 integrated therein, connected through a loading pipe 3 having a valve 4, to a cylindrical working chamber 5, on which a microwave radiation source 6 (multilayer, multi-turn inductor) is connected, connected by a transmission line 7 with a generator 8, inside the cylindrical working chamber 5 in its lower part a driver is installed, consisting of a vertical shaft 9, on which blades 10, made in e Archimedean spiral with concavity in the direction of rotation, and the discharge pipe 11 is connected to a volumetric dispenser 12, under which there is a cooler 13 having hollow walls, with a built-in cooling element 14 and a centrifugal fan 15, communicated by means of the heated air stream 16 exhaust system with heat exchanger 2 .

Installation of thermal disinfection of bulk feed is as follows.

During continuous (in-line) operation, the driver is turned on and the vertical shaft 9 with the blades 10 fixed to it along a helical line through 90 ° is rotated. From the hopper 1 through the loading pipe 3 with the open gate 4, the loose feed is loaded into the cylindrical working chamber 5, then the microwave radiation source 6 is connected, connected by the transmission line 7 to the generator 8, and after 50-60 s, the volumetric dispenser 12, in which through the discharge pipe 11, the processed material enters, captured by the blades 10, made in the form of an Archimedean spiral with concavity in the direction of rotation, while the flow is regulated depending on the capacity of the volumetric dispenser 12, depending the required processing time (exposure), and then transferred to the cooler 13 having hollow walls and equipped with an integrated cooling element 14, where it is cooled by atmospheric air flow from the turned on centrifugal fan 15 and is unloaded by gravity from the cooler. Heated atmospheric air from the cooler through the heated air stream 16 exhaust system enters the heat exchanger 2 located in the receiving hopper 1, heats the feed supplied for processing, and the exhausted (cooled) air is vented to the atmosphere.

During cyclic operation from the hopper 1 through the loading pipe 3 with the open gate 4, the loose feeds are loaded into the cylindrical working chamber 5, then the microwave radiation source 6 is connected, connected by the transmission line 7 to the generator 8, and a driver, the vertical shaft of which 9 is attached to it along a helical line through 90 ° the blades 10 are driven into rotation. A portion of bulk feed is processed for a predetermined time, after which a volumetric dispenser 12 is turned on, into which processed material captured by the blades 10, made in the form of an Archimedean spiral with a concavity in the direction of rotation, is fed through the discharge pipe 11 and then transferred to the cooler 13, having hollow walls and equipped with a built-in cooling element 14, where it is cooled by atmospheric air flow from the turned on centrifugal fan 15 and is unloaded by gravity from the cooler. Heated atmospheric air from the cooler through the heated air stream 16 exhaust system enters the heat exchanger 2 located in the receiving hopper 1, heats the feed supplied for processing, and the exhausted (cooled) air is vented to the atmosphere.

Thus, the use of this installation of thermal disinfection of bulk feed allows you to adjust the exposure of the processed feed, reduce the specific energy costs by a given quality of feed processing, and it can be used both in continuous (continuous) work and in cyclic.

Claims (1)

A thermal disinfection installation for loose feed containing a chamber, a microwave source, a cooling system and a heated air flow direction system, characterized in that the working chamber has the shape of a cylinder, is located inside the microwave radiation source and is equipped with a stimulator installed in its lower part, consisting of from a vertical shaft, on which blades fixed in a spiral line through 90 °, made in the form of an Archimedean spiral with concavity in the direction of rotation, while the working chamber, by loading the main pipe, connected to the receiving hopper and the heat exchanger located inside it, and through the discharge pipe with a volumetric metering unit, under which there is a cooling system in the form of a cooler with hollow walls and a cooling element integrated in it, connected by a heated air flow direction system to the receiving hopper heat exchanger, and a centrifugal fan, and the installation works both in continuous and in cyclic modes.

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