RU185941U1 - Device for drying crops - Google Patents

Abstract

The utility model relates to agriculture and can be used for drying crops, in particular vegetables, fruits and seeds. The purpose of the utility model is to improve the drying quality of crops, increase the percentage of biologically active substances, increase the reliability and universality of the design. The essence of the utility model: a device for drying crops, including a housing with inclined shelves located therein, the housing is configured to vibrate. Sets of inclined shelves are installed so that they can adjust the angle of inclination in the horizontal plane within α = 15 ... 45 degrees. In the lower part of the casing, an outlet pipe of the heat generator is installed, which extends along the entire length of the casing, and in the upper part of the pipe there is a series of holes made in a checkerboard pattern. The center of the holes is deviated from the vertical by an angle β = 15 ... 30 degrees in the plane perpendicular to the outlet pipe, and the installation step of the holes is 1/10 of the length of the body. As a result of the fact that the body oscillates, heated air is supplied under pressure through the holes in the lower part of the sets of inclined shelves installed with a certain angle depending on the material being processed, the processed material goes into a vibro-boiling state, in addition, due to the installation of holes at an angle uniform blowing is in place, the quality of drying of crops increases.

Description

The utility model relates to agriculture and can be used for drying crops, in particular vegetables, fruits and seeds.

The utility model relates to agricultural machinery, in particular to devices for drying crops.

A container dryer for drying a pile of seeds of agricultural crops is known (Pat. RF No. 2272229, C1, F26B 9/06 of 03.20.2006), the dryer includes a heat supply channel with a heat generator connected to it, consisting of series-connected modules, and containers with perforated bottoms, tightly mounted on modules. Inside each module, a flat-shaped control valve is installed, consisting of two parts interconnected by a cylindrical hinge. One of them is fixedly attached to the upper, farthest from the coolant inlet to the module, the end edge of the module frame and to its side walls with a downward slope towards the coolant entering it. The other part of the valve is shorter in length along the first and is connected with a lever-handle located on the outside of the module.

The disadvantages of this device include low productivity and drying quality due to the fact that the layer of the dried material remains stationary.

A device for drying grain is known (Pat. RF No. 2532468, C1, F26B 17/04 of 11/10/2014), a device for drying grain includes a rectangular casing, the surface of which is covered with a layer of heat-insulating material, a loading hopper, an unloading window, a cooling device consisting of a fan and duct. A transporting working body and a horizontal plate are installed inside the casing. On the lower side of the horizontal plate, heating elements are placed between the feed hopper and the discharge window. The transporting working body is made in the form of an endless flexible perforated tape. The length and width of the tape holes are equal to the maximum grain size, the tape thickness is equal to the maximum grain thickness. The width of the loading hopper and the width of the discharge window are equal to the width of the transporting working body. The length of the horizontal plate is limited by the outer edge of the loading hopper and the inner edge of the discharge window. The air duct of the cooling device is bifurcated. One part of it is connected to the casing at an equal distance from the loading hopper and the discharge window and is equipped with a heating element, and the second part of the duct is connected to the casing above the discharge window. In addition, both parts of the duct are equipped with gates.

The disadvantages of this device include low reliability due to high wear of the perforated tape and high damage to the dried material due to the possibility of pinching between the perforated tape and the horizontal plate.

A highly effective device for the rapid drying of small agricultural seeds is known (CN 104095034 (A) of 10/15/2014) A highly efficient device for drying small agricultural seeds, including a heat generator and a drying bin mounted on the frame. The hopper consists of an inner layer of metal and an outer layer of thermal insulation. A hot air channel is located between the inner metal layer and the outer thermal insulation layer, while inside the hopper there are mounted sets of metal plates tilted from the base to the top so that the generatrix of the lower edge of the upper plate coincides with the upper edge of the adjacent lower plate, the outlet of the heat generator is mounted in the lower part of the dryer bunker and has three heat flow exits, two of three of which form a loop through the hot air channel, and one goes to the lower part of the drying bunker but. The heat generator contains an oil tank installed below the drying hopper and a heat exchanger that is installed on the upper end of the hopper

The disadvantages of this device include the low drying speed, which leads to the need for re-passage of the dried material, the possibility of sinking of the dried material due to high humidity and due to the small installation angles of the plates.

Of those closest in technical essence (prototype) is the aerodynamic grain dryer A.K. Brovtsin (Pat. RF №2010623, C1 dated 05.03.1994).

The aerodynamic grain dryer consists of volumetric block modules containing a stationary body with walls made of transparent elastic material, which is equipped with a volumetric loading hopper with a balanced shutter, a suction pipe with heaters and multi-section shutters, a dust fan with a system of ducts, exhausts and shutters, reflectors 6 with heaters, mainly from heat electric heaters (TEN), an unloading nozzle with a balanced shutter that is in contact with the elevator, and a vibrocasing with vibro directional causative agent, inclined T-shaped shelves with a perforated surface, directional slots, and sieves installed in a checkerboard pattern, and the grain dryer is controlled from the control panel, and if necessary, the grain dryer is installed on blocks or chassis and connected to a liquid-fired heating unit fuel or gas.

Aerodynamic grain dryer operates as follows.

Grain under its own weight from the loading hopper enters the housing, where at the beginning under the action of vibration it moves through the sieves, where it is pre-dried and dust particles and surface moisture are removed, after which the grains fall on inclined shelves installed at angles of 5-10 degrees where, due to the action of the vibration exciter, they cascade in the vibro-boiling layer with a given speed, for example, the amplitude of the oscillations 3-4 mm and the frequency 500-800 vibrations / min, while blowing with hot air and in the fields of radiant energy and magnetic fields, from reflectors with heaters and sunlight ("hot box effect"). Then the grain through the discharge pipe enters through the elevator or to the consumer, and if necessary for re-drying. The process control is automated and carried out from the remote control, and if necessary, the grain dryer can be connected to the heating unit using liquid fuel or gas, as well as mounted on a chassis, including self-propelled.

The disadvantages of this device include the possibility of dropping dried material due to high humidity and due to the small angles of shelves, uneven supply of hot air, high construction cost.

The claimed utility model is aimed at eliminating the above-described drawbacks and when using it, the following result was obtained: the drying quality is improved, a large number of biologically active substances are preserved, and the design reliability is increased.

Graphic materials.

In FIG. 1 shows a diagram of a device for drying crops.

In FIG. 2 shows a section AA.

A device for drying crops (Fig. 1, 2) includes a housing 1 with inclined shelves 2 located therein, the housing 1 is configured to vibrate. Sets of inclined shelves 2 are installed so that they have the ability to adjust the angle of inclination in the horizontal plane within α = 15 ... 45 degrees. In the lower part of the casing, an outlet pipe 4 of the heat generator is installed that extends along the entire length of the casing 1, and in the upper part of the pipe 4 there are a number of holes 3 made in a checkerboard pattern, while the center of the holes 3 is deviated from the vertical by an angle β = 15 ... 30 degrees in the plane perpendicular output pipe 4, and the installation step of the holes 3 is 1/10 of the length of the housing.

A device for drying crops is as follows.

Pre-set the angle of inclination of the shelves 2 depending on humidity and friction coefficients of the dried material. Vibration of the housing 1 in a vertical plane. Next, the heat generator is started and hot air under pressure enters through the openings 3 of the outlet pipe 4 into the housing 1. When the operating mode is established, the material to be dried enters the housing 1, where it enters the shelves 2. As a result of the tilt of the shelves 2 and the oscillations of the housing 1, the dried material move along the surface of the shelves 2 towards the lower part of the housing 1. Hot air coming under pressure from the holes 3 of the outlet pipe 4 moves from the lower part of the housing 1 to the upper one, interacts with the dried material taking away moisture. The dried material from the lower part of the housing 1 is fed to the discharge.

Claims (1)

A device for drying crops, including a housing with inclined shelves located in it, the housing is made with the possibility of vibration, characterized in that the sets of inclined shelves are installed so that they can adjust the angle of inclination in the horizontal plane within α = 15 ... 45 degrees, when this in the lower part of the housing has an outlet pipe of the heat generator, extending along the entire length of the housing, and in the upper part of the pipe there is a series of holes made in a checkerboard pattern, while the center is open bent from the vertical by an angle β = 15 ... 30 degrees in the plane perpendicular to the outlet pipe, and the hole installation step is 1/10 of the housing length.

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