RU108827U1 - HELI DRYER - Google Patents

Abstract

The utility model relates to the field of agriculture and concerns the drying of grain using solar energy. The solar dryer contains a drying chamber (1), the casing of which is made translucent. Wet grain from the hopper (7) falls in a thin layer onto the conveyor belt (3), which is driven by an electric motor (4). An electric motor (4) and a heating element (5) use electric energy obtained from solar panels (6). The heating element is installed under the upper branch of the conveyor. Thus, the wet grain is heated on the conveyor belt (3) by the sun's rays penetrating through the transparent material of the case and from the heating element (5), which is powered by solar panels (6). The technical result is the exclusion of energy consumption, ease of installation and dismantling, increasing the drying efficiency. 1 ill.

Description

The claimed utility model relates to the use of only solar energy and is intended for drying wet grain heaps.

A known solar installation containing a housing with a tiered dried product and a translucent wall, a vacuum pump, a heat heater with paraboloid reflectors installed in parallel with a translucent wall and a vibration platform (see RU No. 20442337 F26B 3/28, publ. 09/20/1995).

A disadvantage of the known solar installation is the unevenness of the drying process of the dried products due to the fan, which pumps the heated air flow to the surface of the dried material.

Closest to the claimed utility model (prototype) is a solar dryer containing a solar collector, a perforated dryer drum in a drying chamber mounted on driven support rollers driven by an electric drive or wind turbine (see RU No. 71744, F26В 3/28, publ. 20.03 .2008).

The disadvantages of the prototype are:

- high energy intensity when using an electric drive;

- the presence of a wind turbine, which leads to a complication of the design and depends on the wind;

- the complexity in the installation and dismantling of the designs of the dryer.

The technical result of the utility model is the exclusion of energy consumption, ease of installation and dismantling of the device, increasing the drying efficiency.

The specified technical result is achieved by the fact that in a solar dryer including a solar energy source, a drying chamber with an electric motor, according to a utility model, the housing of the drying chamber is made translucent, in which a belt conveyor is connected to the electric motor, a heating element is located under the upper part of the conveyor along its entire length tubular type, an electric motor and a heating element are connected to a solar energy source, which is used as solar panels.

Distinctive features of the claimed device are a new design of known elements, as well as the presence of new structural elements and their connections, namely:

- the execution of the housing of the drying chamber translucent;

- use of solar panels as a source of solar energy;

- installation of a conveyor belt in the drying chamber;

- installation of a heating element in the drying chamber;

- connection of solar panels with an electric motor and a heating element.

The use of solar panels in the claimed utility model and their connection with an electric motor and a heating element makes it possible to convert solar energy into electrical energy, which is used to power an electric motor and a heating element. This ensures that energy is not consumed from a centralized power supply; power is supplied only by converting solar energy into electrical energy.

The presence of a heating element under the belt conveyor and the case of the drying chamber translucent ensures heating of a thin layer of wet grain from two sides: by sunlight from above through a transparent case and heating by a heating element from below, which increases the drying efficiency.

The above distinguishing features of the utility model provide ease of installation and dismantling of the structure.

The inventive utility model is illustrated in the drawing, where in FIG. schematically depicted a solar dryer.

The proposed solar dryer contains a drying chamber 1, the casing of which is translucent and mounted on racks 2. In the chamber 1 is a belt conveyor 3 connected to an electric motor 4. Under the upper branch of the conveyor 3, a tubular type heating element 5 is located along its entire length. The electric motor 4 and the heating element 5 are connected to the solar panels 6. The solar dryer is equipped with a loading hopper 7 and a receiving hopper 8.

Solar dryer works as follows. The wet grain from the hopper 7 is applied in a thin layer to the conveyor belt 3, which is driven by an electric motor 4. The electric motor 4 and the heating element 5 use electric energy converted from sunlight by solar panels 6. Thus, the wet grain is heated due to the penetration of solar rays through the transparent material of the camera body 1 to a thin grain layer on the conveyor belt and heated from the heating element 5. Dried grain from the conveyor belt falls into the receiving hopper 8.

This utility model for drying grain has several advantages compared to other plants for drying using solar energy: simplicity of design, mobility and does not require an external source of electrical power. Also, this installation has several advantages, such as the use of solar energy for drying grain and for powering the electric motor and heating element from solar panels (lack of energy consumption from central electric networks), environmental friendliness, due to the absence of industrial emissions, etc. This leads to a reduction in the cost of dried agricultural products.

Claims (1)

A solar dryer, including a solar energy source, a drying chamber with an electric motor, characterized in that the drying chamber housing is translucent, in which a belt conveyor is connected to the electric motor, a tubular type heating element, an electric motor and a heating element are located along the entire length of the conveyor connected to a source of solar energy, which use solar panels.