RU57008U1 - KIT FOR MEASURING HYDROLOGICAL PARAMETERS - Google Patents

Abstract

The utility model is a device for measuring the distribution of the hydrological parameters of a natural reservoir in depth, regardless of the flow rate. A kit for measuring hydrological parameters is proposed, including a straightening pipe fixed to a small buoyant vessel using a bracket, an impact-resistant housing with a measuring sensor placed inside the guide pipe, equipped with a bracket connected to a cord with distance marks on the outside, and inside the wire connecting the sensor to the measuring device characterized in that the guide tube is made with through longitudinal slots along the generatrix. The result of the application of the utility model will be the provision of measurement of the parameters of a natural reservoir independent of the flow rate with measurements strictly correlated with the immersion depth of the measuring sensor.

Description

The utility model relates to the field of hydrology and can be used to measure the distribution of the hydrological parameters of the reservoir in depth, regardless of the flow rate. The result is a measurement of parameters strictly related to the immersion depth of the measuring sensor.

This result is obtained due to the fact that the kit is equipped with a pipe, which contains a series of through longitudinal slots along the generatrix with a measuring sensor located inside it, placed in an impact-resistant casing connected to a carrier cord with depth markers for the measurement points.

DESCRIPTION OF A USEFUL MODEL

Known thermometer for measuring water temperature, placed in a protective metal frame containing a window (slot) along the generatrix for the production of visual readings of the thermometer and a protrusion for tying the cord (Bykov V.D., Vasiliev A.V. Hydrometry L .: Hydrometeoizdat - 1977 ) The metal frame serves to protect the thermometer from mechanical damage. The disadvantage of this thermometer is the impossibility of using it to take temperature measurements along a vertical or inclined line with a constant value of the angle of inclination during strong currents due to the sensor drift.

As a rule, hydrological instruments for measuring the parameters of the aquatic environment are placed in a protective casing, which performs the function of protecting the instruments from mechanical damage (Dimaksyan A.M. Hydrological instruments. L .: Gidrometeoizdat, 1972. 284 p.). The disadvantage of these kits is also the impossibility of using them to produce measurement of parameters along a vertical or inclined line with a constant value of the angle of inclination.

A device for an exhaust soil-depth thermometer containing a frame with a metal tip, a notch and a through longitudinal slot (Application for invention No. 5067407 from 1991.12.28 "Device for an exhaust soil-depth thermometer).

There is also known a device for field measurement of soil temperature in order to obtain specific temperature data, taken as a prototype (GOST 25358 (82 State Standard of the USSR SSR Soils Method for field temperature determination). A well-known set for field measurement of soil temperature in wells is a sensor or a garland ( assembly) of sensors mounted on a carrying cord with wires placed inside in accordance with the depth of the measurement points and moved along a protective plastic or steel pipe, part to the entire depth of the well with a portion protruding above the soil surface. Measurement of soil temperature using a known kit is carried out using a measuring device in the following order:

1. Before the descent of the thermal garland, check the working depth of the well;

2. The thermometer is lowered into the protective tube to a predetermined depth, determined by the length of the cord;

3. After a period of exposure, measure and record the temperature.

When taking measurements using a garland of remote sensors, its connector is connected to the measuring device, and the temperature or electrical resistance readings are recorded and recorded.

The disadvantage of this kit is the inability to use it to measure the profile of the hydrological parameters of the reservoir due to the rigid (fixed) fastening of the pipe in the well).

The purpose of this utility model is to provide the ability to measure parameter profiles along the depth of the reservoir, regardless of the speed of the water flow.

This goal is achieved by the fact that in the known device, the protective guide tube inside which the sensor is placed or the sensors are movable.

This technical result is obtained due to the fact that in the known device for field measurement of soil temperature in the pipe contains a series of through longitudinal slots along the generatrix and located inside its measuring sensor, placed in a shockproof housing connected to a carrier cord having marks of the depth of the measurement points.

The essence of the invention is illustrated by drawings.

Figure 1 shows the design of the proposed solution.

Figure 2 shows the application (work) of the design.

The proposed kit includes (Fig. 1) a guide pipe 1 having longitudinal cutouts 2 made along the generatrix, and mounted on an arm 3, placed inside the guide pipe, an impact-resistant housing 4 with a measuring sensor 5, equipped with a bracket 6 connected to a cord 7 with marks applied on it distances 8 and located inside the wires connecting the sensor and the measuring device 9.

The proposed kit is used as follows (Figure 2). To measure the profile of the parameters of the reservoir, pipe 1 is attached at one end with the floating means 2 using the bracket 3. Observer 4 using

cord 5 immerses the remote measuring sensor to a predetermined depth and counts the measurement of the parameter according to the readings of measuring device 9.

Claims (2)

1. A kit for measuring hydrological parameters, including a guide tube, a shockproof housing with a measuring sensor located inside the guide pipe, equipped with a bracket connected to a cord having distance marks applied on the outside, and inside the wire connecting the sensor to the measuring device, characterized in that the guide tube is made with through longitudinal slots along the generatrix. 2. A set for measuring hydrological parameters according to claim 1, characterized in that the guide tube is attached to the floating means using a bracket.