SU1732917A1 - Loose materials treatment apparatus - Google Patents

Abstract

The use of the invention relates to the processing of bulk materials by ultraviolet and infrared radiation, in particular to micronization devices. SUMMARY OF THE INVENTION: A device for treating bulk materials comprises a vertical cylindrical body 1 with thermal insulation 2, side covers 9 and a reflective layer 3 deposited on its inner surface, an optically transparent coil pipe 5 for passing the material being processed, inlet and outlet nozzles 8, radiators 4 mounted parallel to the axis of the housing 1. The housing 1 is provided with a cylinder 10 coaxially disposed therein, the outer surface of the cylinder having a reflective layer 11. The pipeline-coil 5 is made n in the form of a spiral placed coaxially in the gap between the cylinder 10 and the housing 1 with the possibility of vertical reciprocating movement, while the inlet and the outlet 8 are provided with vibrators 7 connected to the housing 1 by means of guides with clamps. The emitters are installed symmetrically and parallel to the axis of the body between it and the coil and between the coil and the cylinder. At the same time, the coil pipeline is made of half-rings, interconnected by couplings 6. 1 3 p p f-crystals, 1 sludge (L C

Description

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The invention relates to the processing of bulk materials by ultraviolet and infrared radiation and can be used to micronize bread products, such as grain.

A device for producing explosive grain is known, comprising vertical working chambers associated with a recirculation system, a heater, and an infrared radiation source. In such a device, the grain preheated in the heater enters the infrared radiation zone in which it undergoes additional heating, as a result of which the moisture content of the grain sheath decreases faster than in the core. As a result, the vapor pressure inside the grain increases and the grain bursts.

The disadvantage of such a device is low efficiency.

Closest to the present invention is a device for processing bulk materials, comprising a horizontal cylindrical body with thermal insulation, side covers and a reflective layer deposited on its inner surface, an optically transparent coil pipe for passing the material being processed, inlet and outlet nozzles, emitters installed in parallel housing axis.

However, this device is characterized by insufficiently effective use of radiation and, accordingly, low efficiency of the device.

The purpose of the invention is to increase the efficiency due to the more efficient use of radiation, the force of gravity and vibration.

The goal is achieved by the fact that the device case is located vertically and provided with a cylinder coaxially located with a gap relative to the case with a reflective layer deposited on its outer surface, the coil pipe being made in the form of a spiral placed coaxially in the gap between the cylinder and the case with the possibility of vertical return -available movement, while the inlet and outlet nozzles are equipped with vibrators connected to the housing by means of guides with clamps, and the emitters are mounted symmetrically and parallel to the axis of the body between it and the coil and between the coil and the cylinder.

In addition, the coil pipe is made of half-rings, interconnected by couplings.

The drawing shows a device for processing bulk materials, a general view.

The device for processing bulk materials contains a vertically arranged cylindrical body 1 with thermal insulation 2 and a reflective layer 3,

emitters 4, optically transparent pipe-coil 5, consisting of half-rings connected by connecting sleeves 6, vibrators 7 placed on the inlet and outlet nozzles 8, covers 9, cylinder

10, coaxially located with a gap relative to the housing 1, a reflective layer 11 deposited on the outer surface of the cylinder 10.

A device for processing bulk materials works as follows.

Before starting the processing of the bulk material, based on its characteristics, set the angle of inclination of the semi-rings of the optically transparent pipeline 5 by manually moving the vibrators 7 along the guides in opposite directions, i.e., stretching or compressing the coil of the pipeline-coil 5. When turned on

the voltage U is applied to the emitters 4 and the vibrators 7. Then, bulk material is supplied to the inlet 8, which gravitationally moves along an optically transparent pipe-coil 5,

representing a downward spiral. To improve the flowability of the bulk material as it moves along the inner cavity of the optically transparent pipeline-coil 5, the vibrators 7 generate oscillations of a certain amplitude and frequency and transmit them to the whole coil of the coil pipeline 5. The oscillation amplitudes of the upper and lower vibrators 7 are in phase, resulting in a tilt angle

The p of all half-rings connected to each other by coupling sleeves 6 fluctuate with respect to a given value, i.e. the optically transparent pipe-coil 5 performs vertical reciprocating movements,

The current value of the speed of movement of the bulk material VT through the internal cavity of the optically transparent coil pipe 5 can in general be determined by the angle of inclination

VT TЈL 0-cosp).

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Vn is the speed of movement of the bulk material at 90 °;

The CT is the coefficient of the bulk material on the internal walls of the optically transparent tubes, the values of which are determined empirically.

The combined luminous flux of the emitters 4, consisting of ultraviolet and infrared radiation spectra, affects the bulk material moving along the internal cavity of the optically transparent coil pipe 5, resulting in elementary particles of the bulk material, such as grain, micronized, i.e. their surface is destroyed due to the rapid and uneven heating of the bulk density of an individual grain due to the advanced heating of its internal part under the action of ultraviolet radiation. Under the action of thermal exposure, chemical transformations of the biological mass of the grain occur, for example, the conversion of starch grains into dystrins of various sugars, which increases the palatability of the grain, its digestibility by the body, etc.

A cylinder 10 is coaxially located inside the housing 1, on the outer surface of which a reflective layer 11 is placed. The cylinder 10 is placed with a gap relative to the housing 1, which ensures the creation of a temperature field that is uniform in height inside the housing 1. There are several reflective surfaces, namely a reflective layer 3 and a reflective layer 11, provides multiple reflection of the combined light flux emitters 4, i.e. additional effects on moving bulk material, which has a positive effect on increasing the efficiency of the entire device.

Maintaining the specified quality of the micronization of the bulk material during processing is accomplished by additionally moving the vibrators 7 manually, which is accompanied by a change in the angle of inclination (the half rings of the optically transparent coil pipe 5 and, therefore, a change in the speed of the bulk material.

To change the performance of an installation, it is necessary to change the magnitude of the applied voltage U to the radiators and set the corresponding angle of inclination (p.

The use of height-adjustable vibrators with guides and clamps allows the processing of bulk materials with different physicomechanical properties, as well as ensuring the specified quality of their processing.

Thus, more efficient use of radiation through the use of several reflective layers, the creation of a uniform height of the temperature field inside the housing, the creation of vibration of a moving flow of bulk material, and the use of gravity forces to move the bulk material along a vertically arranged coil pipe provides significant

increase the efficiency of the bulk solids handling device.

Claims (2)

Invention Formula 1, Device for processing bulk materials containing horizontal a cylindrical housing with thermal insulation, side covers and a reflective layer deposited on its inner surface, an optically transparent pipeline for transferring the processed material, inlet and outlet nozzles, radiating spruce mounted parallel to the axis of the housing, in order to increase efficiency by more efficient use of radiation, gravity and vibration, the body is located vertically and is equipped with a cylinder coaxially positioned with a gap relative to the body with the outer surface of the reflective layer, and the pipeline-coil is made in the form of a spiral placed coaxially in the gap between the cylinder and the housing with the possibility of vertical reciprocating movement, while the inlet and outlet nozzles are equipped with vibrators connected to the case by means of guides with clamps, the emitters are installed symmetrically and parallel to the axis of the case between it and the coil and between the coil and the cylinder. 2. Device pop. 1, characterized by the fact that the coil pipe is made from the semirings connected among themselves by couplings.