SU855498A1

SU855498A1 - Field erosion meter

Info

Publication number: SU855498A1
Application number: SU802881654A
Authority: SU
Inventors: Алексей Герасимович Зуза; Виктор Игнатьевич Щербаков; Василий Михайлович Столяр
Original assignee: Украинский научно-исследовательский институт почвоведения и агрохимии им.А.Н.Соколовского; Донецкая Противоэрозионная Опытная Станция
Priority date: 1980-02-06
Filing date: 1980-02-06
Publication date: 1981-08-15

Description

(54) ПОЛЕВОЙ ЭРОЗИОМЕ(54) FIELD EROSIOM

Claims

The invention relates to agriculture, in particular, to devices for studying wind erosion processes on the soil surface and quantifying the removal of soil particles. A field erosion meter is known, consisting of a cylindrical body, the side surface of which has openings, a lid on which a drive device in the form of a key, springs, gears and a Cl fan is mounted. The disadvantage of this device is its unsuitability to investigate soil erosion characteristics natural wind. The field erozimer (Bagnold sand collector RA) is also known. It consists of a fixed ground surface with a 12.7 mm wide slit and 762 mm height, dust collector and L2J wind deflector for wind of soil particles. The disadvantage of this device is not full the trapping of soil particles by the receiving chamber due to the turbulence created in it and the fact that the trapping of particles occurs without their differentiation by the height of the air flow. The purpose of the invention is to increase the efficiency of trapping soil chaytits, differentiating them according to the height of the air flow and ease of operation. This goal is achieved by the fact that the receiving chamber is made in the form of sections freely mounted on each other, having outlet openings for purified air in its upper, opposite corner from the inlet opening. FIG. 1. shows a field erosiometer, side cut; Fig.2 figurnu strap; Fig. 3 shows a separate section for trapping soil particles. The field erosion meter consists of two side walls 1, a receiver 2 having an inlet opening No. 3 wide with a width of 1 cm. A receiver 2 consists of five separate sections 4-8, each 10 cm high, which are fixed with a pin 9 and freely mounted on each other between the side walls 1, which simultaneously serve as a fly-flame, sections 4-8 of the receiver 2 have an outlet 10 (fig. 1.3) with an area of 5 cm for purified air in the upper corner of each section. The device is installed on a local network using a figured bar 11, to which three strands are attached, fixed in the soil with retaining stems. The device works as follows. In the presence of wind-erosion air processes together with soil particles, it enters the inlet 3 in sections 4-8 dust collectors, where the velocity of the airflow in the chamber is quenched due to the sharp expansion of the sections of the chambers in the opposite direction and the end wall. The soil parts are deposited on the bottom each receiving chamber, and the cleaned air leaves through the outlet 10 in the upper corner of each section. To take into account the trapped particles, pin 9 is taken out, and the sections are alternately pulled out, the trapped material is taken from each section separately, then summarized and a conclusion is drawn about the total removal of soil particles and their height differentiation every 10 cm. of the soil particle trap and those known in the PAU-3 aerodynamic unit are given in the table (100 percent of the indicators obtained from the prototype are obtained from the Bagnold sand catcher), the Bagnold sand catcher (prototype) 49.85100 Sand Peskoulo Itel Pranttl 60,26120, V Continuation of the table Dog dog trap Znamensky 58,21116,8 The proposed device 108,32 217,2 As seen from the data in the table, the proposed device catches 2 times more soil particles than the prototype, which allows more accurately take into account the amount of material delivered and the damage caused by wind erosion, identify and justify more effective measures aimed at protecting the soil from blowing. The combination of the wind vane with the receiver reduces the cost of manufacturing and installing them in the field, which allows work to be done in the autumn-winter period. Fixing the device with the help of a figured bar and three extensions located at an angle of 120 to each other, gives stability in operation and convenience in handling the dust collector. Claims of the invention Field erosion meter, comprising a housing with an outlet and a receiving chamber, characterized in that, in order to increase the efficiency of trapping soil {particles, differentiating them according to the height of the air flow and ease of operation, the receiving chamber is made in the form of freely overlying each other sections with outlet openings for purified air in its upper, opposite to the inlet aperture, angle. Sources of information taken into account during the examination 1. USSR author's certificate No. 534189, cl. A 01 B 13/16, 1976.

2. The Bulletin of Agricultural Science. Alma-Ata. 1960, No. 8.

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