RU2008645C1 - Depth sampler - Google Patents

Abstract

FIELD: sampling. SUBSTANCE: sampler has a sample intake and a sample lift means. The intake is made in the form of a rod with a weight. A movable bush pivotally connected to foldable posts through bearing links is mounted on the rod. A cloth base is fastened to the foldable posts. The sample lift means is made in the form of a chamber parted by a partition with a branch pipe into two sections. A spring- loaded piston is located in the lower section. A hollow with a leaf-type valve is made over the piston. Holes are located through the chamber height. The upper hole has a pocket with a hydroreactive substance. A foldable sealed shell is located in the upper section. EFFECT: improved structure. 2 dwg

Description

 The invention relates to a device for sampling, in particular to a device for sampling water suspension and plankton in hydrological studies.

 Known in-depth sampler, selected as a prototype, containing a sample intake with a load located in its lower part and a means for raising the sample intake to the surface of the water.

 The aim of the invention is to increase efficiency by improving the representativeness of the samples taken and ensuring automatic delivery to the surface of the taken samples of the suspension from a given depth.

 In FIG. 1 shows the device in the folded and open (working) positions; in FIG. 2 - node I in FIG. 1.

 The casing of the device in the form of a tubular rod 1 contains a massive load 2 in the lower part, a working chamber 3 in the upper part, in which an piston 5 is preloaded by a spring 4 and a flap valve 6 is installed above the piston, and a piston 5 is installed on the outer surface of the chamber 3 through the generatrix of the wall, through holes 9 are sequentially arranged, one of which is equipped with a pocket 7 with a hydroreactive substance 8, and the rest are closed with plugs. A movable sleeve 10 is mounted on the tubular rod 1, pivotally connected to the support rods 11, at the ends of which are pivoted bushings 12, through which the folding racks 13 pivotally mounted on the rod 1 pass, with a cloth base fixed thereon, for example, nylon.

 The upper part of the chamber 3 is equipped with a pipe 15, pneumatically connected to the inner cavity of the sealed elastic shell 16, laid in the box 17.

 The depth sampler operates as follows. In the folded state (Fig. 1), the downhole sampler has negative buoyancy and sinks to the surface of the water. When immersed in depth under the influence of external pressure, water begins to flow through the flap valve 6 into the internal cavity of the working chamber 3, compresses the piston 5, which when moving down opens a hole in the pocket 7 with the hydroreacting substance 8 located in it, for example, calcium carbide. As a result of the evolution of gas, for example acetylene, the pressure in the internal cavity of the chamber 3 increases, and the flap valve 6 collapses. Through the pipe 15, the shell 16 is inflated. The shell 16 leaves the box 17, and under the influence of the changed positive buoyancy, the deep sampler rises to the surface of the water. In the process of lifting, under the influence of hydrodynamic pressure acting on the fabric fixed on the folding racks 13, the device for capturing suspended particles opens (Fig. 2). In this case, the movable sleeve 10 is shifted down, and the articulated support rods 11 diverge to the sides. Upon reaching the surface of the water, the device retains buoyancy by incorporating a sample of suspension filtered through a fabric sheath 14 from a column of water to a predetermined depth. The section of the water column from which sampling is carried out is determined either by selecting the stiffness of the spring 4, or by installing a pocket 8 in place of the corresponding plug on the holes 9.

 The technical and economic efficiency of the proposed deep sampler is due to the complete automation of the sampling process, the reliability and simplicity of the design of the deep sampler.

 The effectiveness of the in-depth sampler is confirmed by testing a prototype in 1990 when sampling from a depth of up to 20 m, it is due to the possibility of reducing labor costs, energy and time to obtain reliable information. (56) German Patent No. 3310032, cl. G 01 N 1/12, 1984.

Claims (1)

 DEPTH SAMPLE containing a sample intake with a load located in its lower part, means for raising the sample to the surface of the water, characterized in that the sample intake is made in the form of a tubular rod on which a movable sleeve is mounted pivotally connected through supporting rods with folding racks on of which the fabric base is fixed, and the means for raising the intake is made in the form of a chamber divided by a partition with a pipe into two sections, a spring-loaded piston is located in the lower section, over which Neno hole arranged therein lobed valve under adjustment piston chamber through holes, wherein the upper opening opposite the fixed pocket gidroreagiruyuschim substance, and other openings are provided with plugs in the upper section is foldable hermetic pneumatically connected with the pipe walls.

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