RU2615616C1 - Unit for drying small-fruit crops using solar energy - Google Patents

Abstract

FIELD: heating.

SUBSTANCE: drying unit cover is made from a selective material and intended for heating the air and the material in the drying chamber. Loops and hooks are arranged on a drying unit polycarbonate housing for closing the door which is designed for access to nets wherein the product to be dried is placed. Door is retained by fastening on the housing of the drying unit. Film infrared heaters are hung above and under the net at a certain height, for example, 10 cm, located on shelves and intended for further drying of the material.

EFFECT: reduced power consumption, enhanced design portability, maintained high quality of dried product.

3 dwg

Description

The invention relates to drying equipment and can be used in agriculture and the food industry for drying fruits of various berry crops, in particular fruits of red and aronia, as well as medicinal herbs, sunflower seeds, etc.

Siberia has a very short summer, but even during this period, the fruits of red and aronia are ripened, and this is a perishable product that must be preserved for use in the winter. Chokeberry found its wide application in folk and traditional medicine. This berry helps to eliminate radionuclides, increase immunity, relieves allergic reactions, normalizes blood pressure, improves thyroid function and strengthens blood vessels. It contains vitamins of the groups: “A”, “B”, “C”, “E”, “P”, antioxidants, as well as a huge amount of mineral elements.

Mountain ash ordinary in medicine is used as a multivitamin, diuretic, choleretic, hemostatic drug. She successfully treats scurvy. It is used as a natural diaphoretic and laxative drug. Ripe fruits of red mountain ash contain organic acids, tannins and pectins, amino acids, sorbitol and sorbose, essential oils, potassium, calcium, magnesium, sodium salts. From the fruits of berry crops (mountain ash), jam is made, alcoholic beverages are made.

More than 70% of the fruits of Chokeberry are used as pharmaceutical raw materials for the preparation of various drugs, for this it is dried. Huge losses of finished products that were not properly dried or not dried on time bring great economic damage to agriculture.

Recently, solar energy has been increasingly used in drying technology.

A well-known aerodynamic solar dryer designed for drying hay in bales, consisting of a chassis on which a wind tunnel is installed, acts as a loading hopper, inside which there is a chain conveyor, the top of the pipe is made transparent, and the outer surface is light-absorbing, the discharge pipe is equipped with a conveyor, and the end of the wind tunnel is equipped with a pneumatic supercharger with a heater (RU 2022217 C1, 10.30.1994).

The disadvantages of this device are the dependence of the drying process on the number of sunny days in a year, as well as a limited range of applications.

A device for laying, drying and storing pressed hay and straw in rolls is known, comprising a canopy roof, made with the possibility of vertical movement, suspended on supporting posts using cables, blocks and winches, the axes of the winch drums being mounted at the same level, pivotally mounted on the supporting racks and interconnected by a bevel gear or cardan joints and equipped with a drive (RU 2000125647 A, 12/10/2002).

The disadvantage of this device is its low performance.

Another analogue of the invention is a deflector drying unit containing a supporting frame mounted on a horizontal base, above which a loading hopper is located, in the lower part containing a horizontal breathable partition, a cone-shaped protective cap located above the loading hopper, in the upper part of which an exhaust cylinder is mounted with a fixed on it a cone-shaped exhaust hood, while the design has three deflector air channels, the first (base) - Between the base and the lower part of the loading hopper, the second between the upper part of the loading hopper and the protective hood and the third between the exhaust cylinder and the exhaust hood, the products to be dried are placed inside the loading hopper on a horizontal breathable partition (RU 2343380 C1, 01/10/2009 )

The main disadvantage of this device is the dependence of the performance of the drying unit on the speed of atmospheric air flow.

The closest analogue (prototype) of the present invention is a solar-powered baffle dryer containing a supporting frame mounted on a horizontal base, above which there is a loading hopper, in the lower part containing a horizontal breathable partition designed to accommodate products to be dried, a protective hood and an exhaust cylinder with a conical exhaust hood fixed to it, while the design has two deflector air channels: a base n - between the base and the lower part of the loading hopper and the exhaust - between the exhaust cylinder and the exhaust hood, with solar batteries located outside the protective hood, a reversible fan mounted inside the exhaust cylinder, electric heaters mounted on a horizontal air-permeable partition, lighting devices and a rechargeable battery, moreover, the autonomous power supply of the device’s electrical equipment is carried out by solar batteries, and the rechargeable battery It, connected to solar panels for recharging, provides power and lighting for the dryer in the dark (RU 2435119 C2, 12/27/2010).

The main disadvantage of this device is that solar energy is first converted into electrical energy (maximum efficiency of solar panels 20%), then - into thermal energy.

An object of the invention is to provide a plant for drying fruit of berry crops using solar energy, which allows efficiently converting solar energy into infrared radiation of the required quality (wavelength, specific power).

This technical task is achieved by the fact that the drying apparatus made of polycarbonate, having fans for air circulation, is included in the installation for drying fruits of berries using solar energy, a cover made of selective material is introduced, and a door is made on the drying apparatus to access the material subjected to drying on the grids, while over the grids at a given height are suspended electric heaters, which are film infrared electric heaters.

A general view of the installation is shown in FIG. 1 is a main view, FIG. 2 is a left view, FIG. 3 is a top view.

The cover 2 of the drying unit is made of selective material and is designed to heat air and material in the drying chamber. On the housing 1 of the drying installation made of polycarbonate, there are loops 5 and hooks 4 for closing the door 6, which is designed to access the nets 9, where the product to be dried is placed. The door 6 is held by a fastener 11 on the housing 1 of the drying installation. Above the grid 9 above and below at a certain height, for example 10 cm, film infrared electric heaters 7 are suspended, which are located on shelves 8 and are designed for additional drying of the material. For air circulation, a supply fan 10 and an exhaust fan 3 are provided in the housing 1.

Description of the operation of the device.

The principle of operation of a solar installation for drying fruits of berry crops using solar energy is that the selective material located on the lid 2 of the housing 1 is heated by sunlight and transmits thermal energy in the form of infrared radiation into the housing. The material located on the grid 9, under the influence of infrared rays and convection is dried. To improve the drying quality of the material located on the grid 9, film infrared electric heaters 7 are suspended above it on both sides at a distance of about 10 cm 7. For air circulation, a supply 10 and exhaust 3 fans are provided in the housing 1. In places where there is no central or autonomous power supply, film infrared electric heaters are removed from the installation.

The proposed installation for drying fruit berries using solar energy allows you to effectively convert solar energy into infrared radiation of the required quality (wavelength, specific power - depending on the technological procedure for drying), thereby low-temperature infrared heating and drying of the material without airing and loss qualities (vitamins, sugars, organoleptic properties during such drying are lost slightly).

The fruits of berry crops dried in the proposed manner, for example: red and aronia, can be used for transportation over long distances, long-term storage, followed by medical use (vitamin teas, traditional medicine, etc.), as well as in the food industry.

The proposed installation for drying berries using solar energy can be easily made from commercially available selective material, film infrared electric heaters and polycarbonate and used in private garden areas, as well as nomads in the summer, while ensuring mobility and electrical safety.

Claims (1)

A plant for drying fruits of berry crops using solar energy, including a drying unit case made of polycarbonate, fans for air circulation in the case, characterized in that the drying unit cover is made of selective material, a door is provided on the unit case for access to the product exposed drying on the grids, while above the grids at a given height are suspended electric heaters, which are film infrared electric heaters.

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