RU2513664C1 - Device for water level detection - Google Patents

Abstract

FIELD: measurement equipment.

SUBSTANCE: device for detection of water surface level performs such detection without spending time for visiting posts due to introduction of a bent stand, a television sensor, a cable, a photoelectric light, a television receiver, at the same time the photoelectric light is rigidly connected to the bent stand having a stiff link with a rack holder and with a television sensor having an outlet connected via the cable with the inlet of the television receiver, and having an optical inlet connected to the optical outlet of the vertical rack marks, the optical inlet of which is connected to the optical outlet of the photoelectric light.

EFFECT: invention provides for automated detection of water level.

2 dwg

Description

The invention relates to the field of hydrology and can be used in water gauging posts.

There is a device for determining the water level, presented in the Great Soviet Encyclopedia, M., 1949-1958, in 49 volumes, second edition, in the article "Water gauge post." It consists of a vertical bar with marks, rigidly connected to the holder of the bar, which can be used, for example, a pier or a wall. The reading of the vertical bar marks characterizes the level of the water surface. The monitoring service can serve a certain number of water gauging stations, spaced relative to each other, for example, several kilometers. However, due to the remoteness of the water meter posts from the premises of the monitoring service, it takes some time to bypass the posts in order to monitor the water level. A device for determining the water level is described in the Great Soviet Encyclopedia, M., 1964-1978, in 30 volumes, the third edition, in the article "Water gauge post." It consists of the same nodes as in the aforementioned device. However, due to the remoteness of the water meter posts, it also takes some time to go around the posts in order to determine the water level. Using the proposed device, the determination of the water level is carried out without spending time on detours.

This is achieved by introducing a curved stand, a television sensor, a photoelectric illuminator, a cable and a television receiver, while the photoelectric illuminator is rigidly connected to a curved stand having a rigid connection with the holder of the vertical rail and with a television sensor having an output connected via cable to the input of the television receiver and having an optical input connected to the optical output of the vertical rail marks, the optical input of which is connected to the optical output of the photoelectric illuminator.

In figure 1 and in the text the following notation:

1 - curved rack

2 - television sensor,

3 - cable

4 - television receiver

5 - photoelectric illuminator,

6 - vertical rail with marks,

7 - the holder of the vertical rail,

wherein the photoelectric illuminator 5 is rigidly connected to the curved stand 1, having a rigid connection with the holder of the vertical rail 7, rigidly connected to the vertical rail with marks 6 and also having a rigid connection with the television sensor 2, the output of which is connected via cable 3 to the input of the television receiver 4 having an optical input connected to the optical output of the labels of the vertical rail 6, the optical input of which is connected to the optical output of the photoelectric illuminator 5.

The device operates as follows.

According to the block diagram shown in FIG. 1, a vertical rail with marks 6, fixing the level of the water surface, is rigidly connected to the holder of the vertical rail 7. As the latter, for example, a pier or a wall can be used. A curved stand 1 is rigidly connected to the holder 7 and is rigidly connected to the photoelectric illuminator 5 and to the television sensor 2. The photoelectronic illuminator illuminates the marks at night and automatically turns off during daylight hours. The television sensor 2 can be placed at the end of the rack so that the aforementioned vertical bar marks are in its field of view. In this case, the light energy in the television sensor is converted into electrical signals that are fed via cable 3 to the input of the television receiver 4, which displays labels on its screen. The receiver can be placed at some distance from the water gauging station. If there are several water meter posts spaced relative to each other at a certain distance, the number of television receivers located in one room is equal to the number of these posts. In this case, it can also be carried out using a cable, remote turning on and off the photoelectric illuminator and a television sensor. An example of a specific design of a photoelectric illuminator, which is activated depending on the level of lighting and which includes a photoelectric sensor that turns off lighting in the daytime, is presented in the book by B.C. Yampolsky “Fundamentals of Automation and Electronic Computing Technology”. - M.: Education, 1991, p. 45. Figure 2 shows the placement and interaction of the above nodes. In particular, a curved stand 1, a television sensor 2, a photoelectric illuminator 5, a vertical rail with marks 6, a holder of a vertical rail 7 and a water surface 10 are shown. In this case, the marks of the rail 6 are located in the field of view 9 of the television sensor 2, which are also illuminated by the illuminator, being in zone 8 of its lighting. The proposed device can be used in hydrological posts located on rivers, lakes, seas, channels, where water meter posts are located. This ensures automation of determining the water level, which eliminates the time required to bypass the posts. This facilitates timely emergency response.

Claims (1)

A device for determining the water level, consisting of a vertical bar with tags rigidly connected to the holder of the vertical bar, characterized in that a curved column, a photoelectric illuminator, a television sensor, a cable, a television receiver are introduced, while the photoelectric illuminator is rigidly connected to a curved rack having a rigid communication with the rail holder and with a television sensor having an output connected via cable to the input of the television receiver and having an optical input connected to an optical output of approx vertical slats optical input which is connected to the optical output of the photoelectric illuminator.

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