RU2086096C1 - Apparatus for preparing grain for storage - Google Patents

Abstract

FIELD: laying of grain for storage. SUBSTANCE: apparatus has flat hollow horizontal longitudinal oscillation concentrator connected with ultrasonic source, grain feeding device positioned above its free end and propionic acid supplying device communicated with oscillation concentrator through union. EFFECT: increased efficiency, simplified construction and prolonged storage time. 1 dwg

Description

 The invention relates to techniques for post-harvest processing of grain before laying it for storage.

 A device for preparing grain for storage is known, containing means for feeding grain in the form of a hopper dispenser, means for supplying propionic acid, including a pressure pump and nozzles, and means for mixing them, made in the form of a screw conveyor.

 The disadvantages of this device are the high consumption of propionic acid and the inability to create conditions for long-term storage of treated grain.

 The objective of the invention is to ensure long-term storage of treated grain and reduce the consumption of propionic acid.

 The problem is solved in that in a device for preparing grain for storage, containing means for feeding grain and propionic acid and a means for mixing them, according to the invention, the latter includes a flat hollow longitudinal oscillation concentrator connected to the ultrasound source and placed horizontally, while the means for feeding grain the free end of the concentrator, and the propionic acid supply means is communicated with the cavity of the concentrator through a fitting located on the line of its zero displacements.

 This allows you to reduce the consumption of propionic acid by increasing the uniformity of its distribution in the grain mass and to increase its shelf life by ultrasonic destruction of acid-resistant forms of microflora.

 The drawing shows a diagram of the proposed device.

 The device for preparing grain for storage contains a flat hollow longitudinal oscillation concentrator 2 connected to the ultrasound source 1, placed horizontally, grain supply means 3 placed above the free end of the concentrator 2, and propionic acid supply means 4 connected to the cavity 5 of the concentrator 2 through the nozzle 6 located on the line of zero offsets of the hub 2.

 The device operates as follows.

 Grain means 3 is fed to the output free end of a plane longitudinal concentrator 2 of longitudinal vibrations, and propionic acid is fed through a nozzle 6 through a nozzle 6 into the cavity 5 of the same concentrator 2. Placing the nozzle 6 on the zero-displacement line of the concentrator 2 ensures that ultrasonic vibrations do not dissipate in the connecting lines of the device. The oscillations of the concentrator 2 from the source 1 of ultrasound provide a vacuum at the end surface of its free end. Under the action of rarefaction, the grain and propionic acid move to the end surface of the free end of the concentrator 2, with which they are sprayed along intersecting paths and mixed in flight. During contact with the lateral surface of concentrator 2 and contact time with dispersed propionic acid, the surface microflora of the grain is exposed to ultrasonic vibrations that destroy cell membranes of both the vegetative and spore forms, regardless of their acid resistance. The dispersion dispersion of propionic acid under the action of ultrasonic vibrations is an order of magnitude higher than when spraying through pneumatic nozzles, as in the prototype device. Therefore, a film of propionic acid of a smaller thickness, but possessing the same fungistatic action, is formed on the grain surface. As a result, while reducing the consumption of propionic acid, the grain processed on this device can be stored for a longer time due to the complete destruction of the surface microflora, regardless of its acid resistance.

Claims (1)

 A device for preparing grain for storage, containing means for supplying grain and propionic acid and means for mixing them, characterized in that the mixing means includes a flat hollow longitudinal oscillation concentrator connected to the ultrasound source and placed horizontally, while the means for supplying grain is placed above the free end of the concentrator, and the propionic acid supply means is communicated with the cavity of the concentrator through a fitting located on the line of its zero displacements.