RU2778794C1 - Device for processing grain and feed by irradiation - Google Patents

Abstract

FIELD: bulk products disinfection.

SUBSTANCE: invention relates to the disinfection of bulk products. The device includes a loading unit, a control unit, a mesh conveyor, the speed of which is controlled by an electric motor, a grain accumulation sensor and a radiation intensity sensor, a processing chamber, a cyclone aspiration system, and a fan. A reflective coating is made along the inner surface of the processing chamber. The mesh conveyor, on which the device for distributing grain and feed in one layer, passes inside the processing chamber, where flash discharge lamps are located above and below it. The processing chamber has a branch pipe through which air enters the cyclone aspiration system, from which air is blown out by means of a fan. The cyclone aspiration system, fan, loading unit, control unit, electric motor, processing chamber are fixed on the frame.

EFFECT: invention provides effective, uniform and stable irradiation simultaneously from all sides of grain and feed by ultraviolet irradiation.

1 cl, 1 dwg

Description

The invention relates to a technique and technology for the disinfection of bulk products, in particular bulk food products, grains, seeds, combined poultry and animal feed, and other agricultural products, ingredients of pharmacological and homeopathic preparations, etc. This system provides automatic control of the technological process, disinfection of grain and feed with ultraviolet radiation, with the possibility of simultaneous irradiation of the product from all sides.

A known method of disinfection of bulk materials and a device for its implementation (Patent RU No. 2279806), containing a loading unit, a source of ultraviolet radiation, a means for transporting the processed product, made with the possibility of changing the orientation of individual particles of the bulk product relative to the source of ultraviolet radiation, and the unloading unit, when In this case, the source of ultraviolet radiation is made in the form of a pulsed discharge lamp connected to a power supply unit with a capacitive storage, a charger and an ignition unit.

The disadvantage of this device is that the radiation source is located on one side, which cannot guarantee irradiation of the entire surface of the grain due to the unpredictability of product rotations during vibration, which is especially pronounced if several layers of grain are subject to vibration, as well as the low throughput of the device itself, while maintaining the quality of disinfection and the possibility of changing the orientation of individual particles of the bulk product relative to the source of ultraviolet radiation.

Closest to the claimed model is a device for processing bulk products by irradiation (Patent RU No. 2737764 C1), containing a loading unit, an ultraviolet radiation source made in the form of pulsed discharge lamps, a means for transporting the processed product, an unloading unit, characterized in that additionally introduced control unit, on which the screen and control buttons are located, as well as a grain and feed accumulation sensor, a radiation intensity sensor and a device for distributing grain and feed in one layer, while the loading unit contains dampers that regulate the intensity of grain and feed supply to the means for transporting the processed product, which is made in the form of a conveyor combined with a mesh vibrating tray, while the conveyor is a tray on which there is a means for distributing grain and feed in one layer and a grain accumulation sensor, which, by means of a control unit, regulates the operation of the damper of the assembly for load and the speed of the electric motor of the conveyor, also on the mesh vibration tray there is a radiation intensity sensor, which is connected to the control unit, while the mesh vibration tray is tilted at an angle of 5-10 ° to the horizon, and pulsed discharge lamps are located above and below the vibration tray , which are connected to the ballast unit and have reflectors, while the mesh vibration tray, radiation intensity sensor, flash gas discharge lamps and reflectors are placed in one housing, at the exit of which there is an unloading unit, which is made in the form of a storage bin.

The disadvantage of this device is the complexity of the design of the means for transporting the processed product, which consists of two parts: a conveyor and a mesh vibrating tray. The presence of reflectors complicates and makes the design more cumbersome. Reduced efficiency of grain and feed irradiation due to overheating and contamination of sources. Unstable operation of the device in the absence of a frame.

The objective of the invention is to provide efficient, uniform and stable irradiation of grain and fodder with ultraviolet irradiation simultaneously from all sides, increase throughput and simplify the design of the device.

EFFECT: improving the efficiency of grain and feed processing, improving the functional characteristics of the disinfection process during irradiation of a product of different initial quality and assortment in accordance with the necessary modes by automating the process control, as well as increasing the utilization factor of the ultraviolet flux due to a reflective coating along the inner perimeter processing chamber and aspiration system.

The technical result is achieved by a device for processing grain and feed by irradiation, containing a loading unit, an ultraviolet radiation source made in the form of pulsed gas discharge lamps, a means for transporting the processed product, an unloading unit, a control unit on which a screen and control buttons are located, as well as an accumulation sensor grain and feed, a radiation intensity sensor, a device for distributing grain and feed in one layer, while the loading unit contains dampers that regulate the intensity of grain and feed intake, the grain accumulation sensor regulates the operation of the loading unit damper and the speed of the electric motor through the control unit, intensity sensor radiation is connected to the control unit and the means of distributing grain and feed in one layer, pulsed gas discharge lamps are connected to the control gear unit, at the outlet there is an unloading unit, which is made in the form of a storage bin, while the means o for transporting the processed product is made in the form of a mesh conveyor, on which there is a device for distributing grain and feed in one layer, a grain accumulation sensor and a radiation intensity sensor, the speed of the mesh conveyor is controlled by an electric motor, additionally introduced a processing chamber, a cyclone aspiration system, a fan and a frame , with the possibility of attaching equipment, while a reflective coating is provided on the inner surface of the processing chamber, a mesh conveyor passes inside the processing chamber, where pulsed gas discharge lamps are located above and below it, also in the processing chamber there is a branch pipe through which air enters the cyclone aspiration system , from which air is blown out by means of a fan, while the cyclone aspiration system, fan, loading unit, control unit, electric motor, processing chamber are fixed on the frame.

The figure shows a functional diagram of a device for processing grain and feed by irradiation.

A device for processing grain and feed by irradiation, contains a loading unit 1, which contains shutters 2, which dosing grain and feed onto a means for transporting the processed product, which is made in the form of a mesh conveyor 3, on which a means for distributing grain and feed in one layer 4 is located , and a grain and feed accumulation sensor 5, which, by means of a control unit 6, with a screen 7 and control buttons 8, regulates the operation of the damper 2 of the loading unit 1 and the speed of the electric motor 9 to change the speed of the mesh conveyor 3, on which the radiation intensity sensor 10 is located, connected to the control unit 6, above and below the mesh conveyor there are pulsed gas discharge lamps 11, which are connected to the control gear unit 12, while the mesh conveyor 3, the radiation intensity sensor 10, the flash gas discharge lamps 11 are placed in the processing chamber 13, at the output which the unloading node is located 14, which is made in the form of a storage bin. To increase the utilization factor of the ultraviolet flux of pulsed discharge lamps 11, a reflective coating 15 is provided on the inner surface of the processing chamber 13. In the processing chamber 13, a branch pipe 16 is provided, through which air enters the aspiration system cyclone 17, while cleaning the pulsed discharge lamps 11 from dust and contaminants . The fan 18 is intended for air exhaust. The frame 19 is made with the possibility of attaching the following equipment, the loading unit 1, the mesh conveyor 3, the control unit 6, the electric motor 9, the processing chamber 13 of the cyclone 17 aspiration system, the fan 18.

A device for processing grain and feed by irradiation operates as follows. Grain and feed from the loading unit 1, when the gate 2 is opened, enter the mesh conveyor 3, distributing it in a uniform thin layer using the grain and feed distribution tool in one layer 4, and the grain and feed accumulation sensor 5 regulates the rate of grain and feed intake using the gate 2 and the speed of the mesh conveyor 3, receiving signals from the control unit 6 by means of an electric motor 9 of the mesh conveyor 3, where it is irradiated with pulsed discharge lamps 11, passing through the processing chamber 13, moving to the grain unloading unit 14. The pulsed gas discharge lamps 11 are connected to the control gear unit 12 , which is connected to the control unit 6. A reflective coating 15 is provided along the inner surface of the processing chamber 13. On the mesh conveyor 3 in the processing chamber 11 there is a radiation intensity measurement sensor 10 connected to the control unit 6, on which the screen 7 and control buttons 8 are located, that allow you to customize the processing mode and grain and fodder. In the processing chamber 13, a branch pipe 16 is provided, through which air enters the aspiration system cyclone 17, while cleaning impulse discharge lamps 11 from dirt and dust, through a fan 18. Loading unit, mesh conveyor 3, control unit 6, electric motor 9, chamber processing 13, aspiration system cyclone 17, fan 18 are fixed on the frame 19.

Thus, in the claimed device for processing grain and feed by irradiation, it increases the efficiency of processing grain and feed, improves the functional characteristics of the disinfection process during irradiation of a product of different initial quality and assortment in accordance with the necessary modes by automating the process control, and also increases the utilization factor ultraviolet flux due to the reflective coating along the inner perimeter of the processing chamber and the aspiration system.

Claims (1)

A device for processing grain and feed by irradiation, containing a loading unit, an ultraviolet radiation source made in the form of pulsed gas discharge lamps, a means for transporting the processed product, an unloading unit, a control unit with a screen and control buttons, as well as a grain and feed accumulation sensor , a radiation intensity sensor, a device for distributing grain and feed in one layer, while the loading unit contains dampers that regulate the intensity of grain and feed intake, the grain accumulation sensor regulates the operation of the loading unit damper and the speed of the electric motor by means of a control unit, the radiation intensity sensor is connected to a control unit and a means of distributing grain and feed in one layer, flash gas discharge lamps are connected to a block of ballasts, an unloading unit is located at the outlet, which is made in the form of a storage bin, characterized in that the means for transporting of the processed product is made in the form of a mesh conveyor, on which there is a device for distributing grain and feed in one layer, a grain accumulation sensor and a radiation intensity sensor, the speed of the mesh conveyor is controlled by an electric motor, additionally introduced a processing chamber, a cyclone aspiration system, a fan and a frame made with the possibility of attaching equipment, while a reflective coating is provided on the inner surface of the processing chamber, a mesh conveyor passes inside the processing chamber, where pulsed gas discharge lamps are located above and below it, a branch pipe is also provided in the processing chamber through which air enters the cyclone aspiration system, from which air is blown out by means of a fan, while the cyclone aspiration system, fan, loading unit, control unit, electric motor, processing chamber are fixed on the frame.

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