SU1089553A1 - Lisimeter - Google Patents

Abstract

1. LYSIMETER CONTAINING THE WORKING CHAMBER, connected via filter pan to a well with a well in which the first level sensor is located, connected to the control unit, an elastic material cylinder coaxial with the working chamber, forming an annular cavity with the working chamber, level and flow measuring unit water, a compensating well with a second level sensor installed in it, associated with a level and flow measurement unit, is about a tl and h. so that, in order to increase the accuracy of determining the humidity while maintaining the structure of the monolith, a perforated partition is installed at the base of the monolith, connected through rigid communication passing through the monolith to the weight measuring device, and the annular cavity is equipped with a means for relieving pressure in it . 2. A lysimeter according to claim 1, wherein O; A rigid connection between the perforated partition and the weight measuring device is made in the form of a rack passing along the axis of the monolith; 3. The lyismimeter according to claim 1, o. We note that the weight measuring device is made in the form of O) a traverse fixed to the body of the lysimeter, and a spring dynamometer rigidly connected by one link with the link attached to the rack, and equipped with a force organ, and the hole installed on it by means of a threaded connection. 4. Lysimeter according to claim 1, whether it is with the fact that the yoke is connected between the yen and the lysimeter body by means of fingers. x YT D1: about

Description

The invention relates to ameliorative technique, and more specifically to lysimeters used to study the water-salt and thermal conditions of soil grounds. The universal lysimetric installation of the ULU-74 is known, it is a camera with a monolith and under the don, a measuring well with a level sensor, a system of control and water flow in the chamber ij. A disadvantage of the known installation is that it does not have a weighing device, as a result of which the determination of the weight of the monolith during the operation of the lysimeter is associated with great difficulties, since it is necessary to completely dismantle the lysimeter. At the same time, considerable time is spent, a large amount of work is performed, the structure of the monolith is also destroyed, and the accuracy of determining the weight of the monolith due to evaporation and fluid flow during transportation of the monolith is not ensured, as a result of which the cost of this method is significant. Closest to the present invention is a lysimeter containing a working chamber with a coaxially mounted cylinder of elastic material, for example rubber, connected via a pan to a filter pipe with a well in which a first level sensor is located, connected to a level control unit, compensating the well In it, the second level sensor, connected to the control unit and the flow rate of water, contains the x-cavity cavity and the monolith C23. The lack of such a lysimeter is of low accuracy in determining the humidity. The purpose of the invention is to improve the accuracy of determination of humidity while preserving the structure of the monolith and, thus, simplifying, reducing time. weighing and monolith weight determination. The goal is achieved by the fact that in the lysimeter containing a working chamber connected via a sump to a filter with a nozzle in which a first level sensor is located, connected to the control unit mounted coaxially to the working chamber a cylinder of elastic material forming an annular cavity with the working chamber , a level and flow measurement unit compensating a well with a BTOIXJM level sensor installed in it, connected to a level and flow measurement unit, is punched in the base of the monolith A partition connected by a rigid connection passing through the monolith with a weighing device, and an annular cavity provided with a means for relieving pressure in it. At the same time, the rigid connection of the perforation of the partition and the weighing device is made in the form of a rack passing along the axis of the monolith. The weighing device is complete (in the form of a traverse attached to the body of the lysimeter and a spring dynamometer rigidly connected with a single link to a pole mounted on a stand, an earring, and the other is equipped with a power unit, and an earring is mounted on it by threaded connection. In addition, the yoke is connected to the lysimeter body by means of fingers. The lysimeter is shown in side view. The lysimeter consists of a working chamber 1 with a coaxially mounted cylinder 2 of elastic material, for example A port connected through a sump 3 with a filter 4 by a nozzle 5 with a well 6, in which a first level 7 sensor is located, connected to a compensating well 9 control unit 8 with a second level sensor 10 installed in it, connected to a level 11 and water flow measuring unit 11, the annular cavity 12 and the monolith 13. The well 6 is equipped with a metering pump 14, and the compensation of the well 9 with a metering pump 15 located in the measuring tank 16 connected via a tee 17 to the annular cavity 12, the tee 17 is connected to the pipeline 18. Pumps - dispensers 14 and 15 are united by a common pipeline 19. In monolith 13, sensors 20 are laid in height for temperature, salinity and other parameters, connected to a block of readings (not shown). The pallet 3 is made in the form of a settling tank with a perforated partition 21. The lysimeter is also equipped with a weighing device, made in the form of an additional unit mounted above the pallet 3, under the monolith 13, perforated partition 22, connected to the weighing device. Filter 4 is a grid laid on the top of a perforated partition 22. On the grid there is a layer of sand 23 in contact with a monolith of 13 soil grounds. The partition 22 is mounted on the partition 21 by means of an annular support 24. The fixture is made in the form of a cross bar 25 of a spring dynamometer 26 supported on the housing of the working chamber 1, the ha 27 of which is connected to the link 29 fixed on the rack 28 and

Claims (4)

1. A LYSIMETER CONTAINING A WORKING CAMERA connected through a tray with a filter to a pipe with a well in which the first Level Sensor is located, connected to the control unit, a cylinder made of elastic material coaxially mounted to the working chamber, forming an annular cavity with the working chamber, a level and flow measuring unit water, a compensating well with a second level sensor installed in it, connected with a level measuring unit, and flow rate, with the exception of. with the fact that, in order to increase the accuracy of determining moisture while maintaining the structure of the monolith, a perforated partition is installed at the base of the monolith, connected via a rigid connection passing through the monolith to a weight measuring device, and the annular cavity is equipped with a means for relieving pressure in it. 2. Lysimeter pop. 1, characterized in that the rigid connection of the perforated partition and the weighing device is made in the form of a stand passing along the axis of the monolith. 3. Lysimeter according to π. 1, that the weighing device is made in the form of a traverse mounted on the housing Λ of the lysimeter, and a spring dynamometer rigidly connected by one rod ¢, with an earring fixed to the stand and the other traction - with a traverse and equipped with a power organ, and the earring is mounted on it by means of a threaded connection. 4. The lysimeter according to π. 1, characterized in that the crosshead is connected to the lysimeter body by means of fingers. ·>