RU2042092C1 - Heliodrier - Google Patents

Abstract

FIELD: drying of agricultural products. SUBSTANCE: heliodrier has plates 5 made integral with perforated strips 2 for providing transmission of heat by heat-conductance capacity. Plates 5 are positioned in overlapped relation so as to define guiding slits 6. Channel 7 positioned between auxiliary plate 8 and transparent cover 9 is adapted for preliminary heating of air. When various products are laid on strips 2 or when quantity of products is different, simultaneous drying out of products on all strips 2 is provided by regulating flow rate of air supplied to each strip 2, through changing width of slits 6 by shifting strips 2 in horizontal plane. EFFECT: increased efficiency in drying products positioned on a plurality of strips by regulated supply of air. 1 dwg

Description

 The invention relates to drying equipment and can be used for drying various materials, in particular agricultural products.

Known solar installation, comprising a housing with a tiered dried product and a translucent wall, an absorber installed parallel to the latter with the formation of a channel for the passage of air, and a fan [1]
In the known solar dryer, the entire stream of heated air is pumped by the fan through the products to be dried, which leads to uneven drying of the products by volume.

Closest to the claimed combination of features is a solar dryer containing a housing with belt mounted horizontal air-permeable horizontal shelves for the product to be dried and a transparent inclined wall, a metal absorber installed parallel to the latter with the formation of an air passage and made of a number of plates arranged with a gap with respect to each other [2]
Thanks to the installation of plates with a gap relative to each other, the heated air in the housing is redistributed, as a result, more uniform drying of the products is achieved. In the known solar dryer, drying is carried out due to convective heat transfer and due to radiation from the absorber plates. However, there is no sufficiently effective process of heat transfer by thermal conductivity. In addition, in this solar dryer there is no possibility of regulating the amount of air supplied to various drying zones.

 The objective of the invention is the creation of a solar dryer, providing improved quality of the dried product due to more complete use of heat of solar energy and providing the ability to control the amount of air supplied to various drying zones.

 The most complete use of solar energy is achieved by performing absorber plates at the same time with perforated shelves for heat transfer by thermal conductivity and installing an additional absorber plate under the upper shelf, and the possibility of regulating the amount of air is achieved by installing overlapping plates with the formation of guide slots made adjustable by installing shelves with the possibility horizontal movement. The installation of overlapping plates leads to turbulence in the flow, which also contributes to the intensification of heat removal from the absorber plates.

 The drawing shows a solar dryer.

The solar dryer contains a housing 1 with belt-mounted horizontal air-permeable horizontal shelves 2 for the product to be dried and a transparent inclined wall 3, a metal absorber installed parallel to the latter with the formation of a channel 4 for air passage and made of a number of plates 5 located with a gap relative to each other. The shelves 2 are made of perforated metal and integrally with the absorber plates 5, which are overlapped with the formation of guide slots 6, made adjustable by installing shelves 2 with the possibility of horizontal movement. An additional absorber plate 8 and a transparent cover 9 are installed above the upper shelf with the formation of the air intake channel 7. The side of the plates 5 and 8 facing the transparent wall has a selective coating with a high light absorption coefficient in the visible region of the spectrum, and the reverse side of these plates facing to the dried product, has a high emissivity in the infrared region of the spectrum. The described design of the shelves passing into the plates of the absorber provides intensive heat removal from the plates and its transfer to the volume with the dried product due to three mechanisms:
1. Convective heat transfer of turbulent air flow with absorber plates;
2. The thermal conductivity of the metal plates of the absorber and shelves;
3. Radiation of the back wall of the plates directly onto the product to be dried.

 At the entrance to the channel 7, porous elements 10 are installed, which act as dust filters. On the back side of the housing 1 there is a door 11 through which the product to be loaded and unloaded is dried. On the door there is one (or several) fans 12 for pumping air. To equalize the pressure behind the shelves, a space 13 is left between them and the door. Swivel wheels 14 are attached to the bottom of the housing from the outside, with which the solar dryer can move to the desired location and focus on the sun.

 The drying chamber operates as follows.

 The air passes through the porous elements 10 and, cleaned of dust, first enters the channel 7 between the plate 8 and the transparent cover 9, and then, previously heated, enters the channel 4. The absorber plates 5, oriented to the sun, intensively absorb solar radiation and transmit warmth to the air washing them. Heated air through the guide slots 6 enters the inside of the housing 1. Part of the heat from the plates 5 is transferred due to the thermal conductivity of the shelves 2, which is a continuation of the plates 5, and also due to the radiation of the inner side of the plates 5 and shelves 2.

 Dried products are located on shelves 2 perforated to improve ventilation, or in baking sheets with perforated walls mounted on these shelves. Warm air, washing the dried products, is saturated with moisture and is removed through the fan 12 to the outside. The loading of dried products into the solar housing and their unloading is carried out through the door 11 located on the back of the housing 1.

 In the case when a different product (with different moisture content) or an unequal amount is placed on the shelves, to ensure simultaneous drying of it on all shelves, the amount of air supplied to each shelf can be adjusted by changing the width of the gap 6 by horizontal movement of the shelves.

Claims (1)

 A HELI-DRYER containing a housing with tiered horizontal air-permeable horizontal shelves for the product to be dried and a transparent inclined wall, a metal absorber installed parallel to the latter with the formation of an air passage and made of a number of plates arranged with a gap relative to one another, characterized in that the shelves made of perforated metal and in one piece with the absorber plates installed overlap with the formation of guide slots made adjustable by installing shelves with the possibility of horizontal movement, and above the upper shelf, an additional absorber plate and a transparent cover are installed with the formation of the inlet air channel.