NL2015022B1 - Lysimeter. - Google Patents

Abstract

Device for determining the water balance, by evaporation of soil and crop to the atmosphere and precipitation, based on weight measurement of a soil column and water reservoir. The device is provided with a moisture control system which regulates the soil column to the same moisture tension status as the environment, or allows moisture to drain through percolation. Including a load-bearing wall foundation structure on which a height-adjustable and horizontally adjustable collar is mounted, with a free-hanging integrated structure of a support frame with mounted base column, suction plate, electronics, pumps, water reservoir and force sensors mounted on the collar.

Description

NLP196498

LYSIMETER

BACKGROUND OF THE INVENTION

For determining the water balance, by evaporation of soil and crop to the atmosphere and precipitation, use can be made of a lysimeter that determines the amount of precipitation and evaporation based on the weight measurement of a column of soil with or without crop. The lysimeter is equipped with a moisture control system that regulates the soil column to the same moisture pressure status as the environment, or allows excess moisture to drain through percolation. The lysimeter is provided with sensors for measuring, for example, moisture tension, temperature and a facility with which recording equipment - whether wireless or not - is connected.

It is known that the placement - inserting the undisturbed soil column and the placement back into the environment - of lysimeters is an accurate and time-consuming process that can lead to insufficient measurement accuracy. In addition, the number of pipes between the soil column, sensors, electronics and pumps provides an obstacle that can disrupt proper operation during installation and operation.

The object of the invention is to provide an improvement to a lysimeter.

SUMMARY OF THE INVENTION

To this end, according to the invention, there is provided a device for measuring the weight of a soil column and water reservoir comprising a load-bearing wall foundation structure, on which a height and horizontally adjustable collar is mounted. Attached to this collar, a multiple, preferably triple, rod-shaped feature provides a free-hanging structure of a support frame with the integrated parts (soil column, suction plate, electronics, pumps, water reservoir, force sensors)

Also provided according to the invention is a device for measuring evaporation and precipitation through an integrated construction comprising: sample tube filled with soil column and crop, suction plate for moisture control of the soil column, force sensor for sample, force sensor for water reservoir, electronics for measuring, control and recording and communicating measurement values, pump for moisture control, pump for water reservoir and water reservoir, collar and foundation construction.

According to the invention there is also provided a device for accurately controlling the moisture content of the soil column by means of a suction plate. The device provides for both extraction and administration of water. The suction plate is made up of a closed structure filled with water connected to a device that controls the suction plate in accordance with the moisture condition of the environment. The suction plate is composed of a stacking structure comprising a flexible hydrophilic felt layer that provides full hydrological contact with the bottom, a hydrophilic plastic membrane with sufficiently small pores that can withstand a vacuum of at least 1 bar, a hydrophilic support for mechanical support of the membrane and a mesh for proportional pressure distribution under the membrane structure.

According to the invention, a device is also provided as a wall foundation construction, built up from a number of wall parts which together form a continuous wall foundation construction. The wall parts are provided on the longitudinal sides with a coupling construction, on the top side with a mounting possibility, for example in the form of a collar, and on the bottom side a provision in the form of a thickening is provided which results in the required force for insertion. of bottom adhesive lowered and once in position bottom foundation grip raised by hook action.

From a further aspect, a device is provided for stabbing a ground column by means of the aforementioned foundation structure on which a press frame can be mounted. A pressing mechanism is mounted on the press frame that pushes the soil sample ring into the soil. Because the wall foundation construction provides a greater resistance to pulling out than the soil sample ring against impressions, good functioning is guaranteed.

From a further aspect, a device is provided for cutting off and supporting a base column at the bottom by means of a cutting wire. By means of a construction on which a wire winch with cutting wire is mounted which ends via an eye at the bottom in a loop that is placed around the annular excavated soil column. A wire winch reels the loop in such a way that the wire cuts through the bottom column so that the bottom column can be taken out. A support device, for example a support net or cloth, attached to the loop can be pulled directly under the sample for the purpose of supporting the soil column against sample loss during hoisting.

From a further aspect, a device is provided for removing and replacing the integrated construction by means of the aforementioned foundation construction on which a tiltable hoisting frame can be mounted. A hoisting mechanism is mounted on the hoisting frame that hoists the soil sample ring and tilts sideways from the sample hole, which releases the sample hole for further excavation and allows the inserted soil column to be placed in the structure.

The aspects and measures described in this description and claims of the application and / or shown in the drawings of this application can, where possible, also be applied separately from each other. Those individual aspects, and other aspects, can be the subject of split-off patent applications directed to them. This applies in particular to the measures and aspects that are described per se in the subclaims.

BRIEF DESCRIPTION OF THE DRAWINGS

The invention will be elucidated on the basis of a number of exemplary embodiments shown in the accompanying drawings. Shown is:

Figure 1 shows a side view and partial longitudinal section of an exemplary embodiment of a lysimeter;

Figure 2 shows a side view and partial longitudinal section of another exemplary embodiment of a lysimeter;

Figure 3 is a detailed view of Figure 2;

Figure 4 is a view of an exemplary embodiment of a suction plate;

Figure 5 is a side view of an exemplary embodiment of a wall foundation structure;

Figure 6 shows a view of an exemplary embodiment of a device for piercing a soil column;

Figure 7 is a view of an exemplary embodiment of a device for trimming and supporting at the bottom; and

Figure 8 is a view of an exemplary embodiment of a tilting hoisting frame.

DETAILED DESCRIPTION OF THE DRAWINGS

The lysimeter shown in Figure 1 is a barrel-shaped body B with a lower end C and an upper end A and, in the situation shown, is placed in a ground with a ground level height M.

The lysimeter comprises a collar 3, by means of an adjusting mechanism 1, adjustable in height and surface. A sheet pile construction 5 functions as a foundation for the adjusting mechanism. Attached to this collar, a multiple, preferably triple, rod-shaped feature 14 provides a free-hanging structure of a support frame 13, with the integrated parts (base column 6, suction plate 7, electronics 8, pumps 9, water reservoir 12, force sensor base column 10, reservoir sensor 11). The rod-shaped provision is provided with a lifting suspension at the top. A watertight housing 4 provides the free annular space around the free-hanging structure.

The construction shown in Figure 2 shows the longitudinal section of an exemplary embodiment of a lysimeter according to the invention as an integrated construction with the aim of realizing a compact composition comprising: a foundation construction 5, adjusting mechanism 1, collar 3, base column 6, suction plate 7, electronics 8, pumps 9, water reservoir 12, force sensor soil column 10, force sensor reservoir 11. watertight housing 4

The details of Figure 2 shown in Figure 3 show the: base column 6, suction plate 7, electronics 8, pumps 9, water reservoir 12, force transducer ground column 10, force transducer reservoir 11. Support frame 13 provides for the compact mounting of the aforementioned components.

The construction shown in Figure 4 shows a device for accurately controlling the moisture content of the soil column by means of a suction plate. The device provides for both extraction and administration of water. The suction plate is made up of a closed construction 7, filled with water connected to a device that controls the suction plate in accordance with the moisture condition of the environment. The suction plate is made up of a stacking structure containing a flexible hydrophilic felt layer 15 that provides full hydrological contact with the bottom, a hydrophilic plastic membrane 16 with sufficiently small pores that can withstand a reduced pressure of at least 1 bar in a water-saturated state, a hydrophilic carrier 17 with mounting frame 18 for mechanical support of the membrane and a mesh 19 which provides a free space for proportional pressure distribution under the membrane construction.

The construction shown in Figure 5 shows a lysimeter of wall foundation construction 5. The purpose of this construction is to prevent the walls from collapsing, as a foundation of the lysimeter, to prevent groundwater from complicating the installation of the lysimeter and to allow the pumping out of excess groundwater. The wall foundation construction is made up of a number of separate wall part elements that together form a continuous construction. The separate elements make it possible to place them simply because a limited penetration force per element is required, while all coupled elements together have sufficient foundation force. The elements are provided on the longitudinal side with a coupling construction 20, on the upper side with mounting provision 21, for example in the form of a collar and on the underside a provision in the form of a thickening 22 is provided which provides the required force for insertion lowered as a result of soil adhesive and once in position soil foundation grip increases due to hook action. Furthermore, collar 3, the adjusting mechanism 1, the hoisting suspension 2 and watertight housing 4 are shown.

The device shown in Figure 6 is for plugging a soil column with or without crop. By means of the aforementioned foundation construction 5, on which a press frame 23 can be mounted. A pressing mechanism 24 is mounted on the press frame that pushes the soil sample ring 6 into the soil and at the same time protects the crop. Because the wall foundation construction provides a greater resistance to pulling out than the soil sample ring against impressions, good functioning is guaranteed.

The construction shown in Figure 7 shows a device for cutting and supporting a base column with crop at the bottom by means of a cutting wire 25. The construction 26 with support 27, on which mounted a wire winch 28, provided with cutting wire 25 which is mounted at the bottom in a loop that is placed around the annular excavated soil column. A wire winch reels the loop in such a way that the wire cuts through the soil column at the bottom so that the soil column can be taken out without loss of sample. The device provides, for example, a support net or cloth attached to the loop, which are simultaneously pulled under the sample during cutting with the aim of supporting the soil column against sample loss during hoisting.

The construction shown in Figure 8 shows a device for removing and replacing the integrated lysimeter construction by means of the aforementioned foundation construction 5, on which a tiltable hoisting frame 29, with hoisting-tilting provision 30, can be mounted. On the hoisting frame a hoisting mechanism 31 is mounted that hoists the soil sampling ring 6, with soil column and crop from the sampling hole and tilted sideways of the sampling hole, with which the sampling hole is released for further excavation and the inserted soil column can easily be manipulated and placed in the structure .

The above description is included to illustrate the operation of preferred embodiments of the invention, and not to limit the scope of the invention. Starting from the above explanation, many variations will be evident to those skilled in the art that fall within the spirit and scope of the present invention.

Claims (7)

Device for determining the water balance, by evaporation of soil and crop to the atmosphere and precipitation, on the basis of weight measurement of a soil column and water reservoir, wherein the device is provided with a moisture control system which controls the soil column to an equal moisture voltage status as the environment, or allows moisture to drain through percolation, comprising a load-bearing wall foundation construction on which a height-adjustable and horizontally adjustable collar is mounted, with a free-hanging integrated construction of a support frame with mounted base column, suction plate, electronics, pumps, water reservoir being mounted on the collar and power sensors. Device as claimed in claim 1, wherein a device or a hydrophilic suction plate provides for controlling the moisture content in accordance with the moisture condition of the environment. Device as claimed in claim 1 or 2, wherein a construction built up from a number of wall parts functions as a protective foundation. Device as claimed in claims 1 and 3, comprising a device with a pressing mechanism for plugging a base column mounted on said foundation structure. Device as claimed in claims 1 and 4, comprising a device for cutting off and supporting a base column on the underside by means of a cutting wire and support provision. Device as claimed in claims 1 and 3, comprising a tiltable hoisting device mounted on said foundation structure, which hoists and lowers the soil sample ring, can be tilted laterally for manipulation next to the sample hole. Device as claimed in any of the foregoing claims, comprising sensors and / or a provision for data recording and transfer. -o-o-o-o-o-o-o-BT / HZ