KR20110116815A - Waterlevel interlocking type water temperature and flow velocity monitoring system - Google Patents

Abstract

The present invention relates to a water level interlocking water temperature and flow rate monitoring system, and more specifically, to install a sensing sensor for measuring the water temperature and the flow rate in the multi-stage foldable linkage member that can be reduced and expanded according to the water level fluctuation, such as a river or lake. Therefore, even in the case of water level fluctuations, the sensor installed at a plurality of points is related to a water level interlocking water temperature and flow rate monitoring system so that accurate measurements can be made for each depth at the same stretch interval.
That is, the present invention is buoyant floating on the surface of the water and moving in the vertical direction according to the water level, a plurality of connections between the right and left directly below the buoy alternately connected to the central shaft portion and both ends are connected to the connecting shaft portion in the longitudinal direction A multistage foldable interlocking member that is stretched and stretched, a multi-stage sensor installed on the interlocking member, and a sensor for measuring water temperature and flow rate for each depth, and installed at the lower end of the interlocking member so that the lower end of the interlocking member is fixed vertically in the lower portion. An anchor, a level gauge installed at the anchor to measure the total depth, and one end of the wire rope connected to a lower end central axis in the longitudinal direction of the interlocking member, and the other end of the wire rope installed at the top of the interlocking member. Water level interlocking water temperature and flow rate monitor connected to the tensioning weight through the guide roller provided on the horizontal support And the ring system is characterized.

Description

Waterlevel interlocking type Water temperature and Flow velocity Monitoring system

The present invention relates to a water level interlocking water temperature and flow rate monitoring system, and more specifically, to install a sensing sensor for measuring the water temperature and the flow rate in the multi-stage foldable linkage member that can be reduced and expanded according to the water level fluctuation, such as a river or lake. Therefore, even in the case of water level fluctuations, the sensor installed at a plurality of points is related to a water level interlocking water temperature and flow rate monitoring system so that accurate measurements can be made for each depth at the same stretch interval.

In general, Korea's climate belongs to the monsoon region of temperate and cold zones in the mid-latitude, so the four seasons of spring, summer, autumn and winter are distinct. More than 700 mm of rain reaches about 60%. In addition, our country is a peninsula with three sides surrounded by the sea, and the plain of the whole country is composed of only 30% of the mountainous terrain. Therefore, considering the geographic features with large gradients and rainfall characteristics concentrated in the summer, the securing and management of water resources in Korea is being carried out in a poor natural environment that is hard to find anywhere else in the world.

For example, the fluctuations in the water level of the flood and dry seasons over 30 m due to the reservoir operation of the multi-purpose dam, which considered flood damage prevention and water resources as the top priority, have many difficulties in monitoring the water temperature in the lake using the existing thermistor chain.

In order to realize water resource management based on accurate measurement data such as water temperature and flow rate acquired by a certain depth by responding to the fluctuations in the water level of a river or a lake, a measurement means capable of accurate monitoring by depth even during a water level fluctuation is required.

In the related art, as shown in FIG. 6, a multi-stage detecting sensor 30 for detecting water temperature and flow rate is installed in a wire rope 50 having a predetermined length, and a buoy 10 is attached to an upper portion of the wire rope, and the lower portion is an anchor. (40) attached to drop to reach the bottom of the observation point and then to measure the water temperature and flow rate by depth using the sensor 30 installed in multiple stages on the wire rope 50, this measurement method is buoy As the wire rope 50 suspended on the (10) is not in a vertical state with the buoy 10 as the water level fluctuates, the side of the wire rope 50, the multi-stage detection sensor 30 installed in the wire rope 50 has irregular intervals Since there is a problem that can not ensure the reliability of the measurement results for each depth monitored by each sensor.

The present invention has been made to solve this problem, by installing a multi-stage foldable interlocking member directly below the buoy floating on the water surface to install a sensor for measuring the water temperature and flow rate in the interlocking member, respectively, and anchored at the bottom of the interlocking member Attach one end of the wire rope to the top of the anchor, and the other end of the wire rope is connected to the tension holding weight through the guide roller provided on the horizontal support installed on the top in the longitudinal direction on the center line of the interlocking member It is to provide a water level interlocking water temperature and flow rate monitoring system so that accurate measurement can be made for each depth in a configuration in which the foldable interlock member is stretched at the same interval according to the level of the pulley.

The present invention is buoyant floating on the water surface and moving in the vertical direction in accordance with the water level, a plurality of connections between the right and left directly below the buoy alternately connected to the central shaft portion and both ends are connected to the connecting shaft portion in the longitudinal direction to stretch One multi-stage foldable interlocking member, a multi-stage installed on the interlocking member and a sensor for measuring the water temperature and flow rate for each depth, anchors are installed on the lower end of the interlocking member so that the lower end of the interlocking member fixed in a vertical line in the lower portion And a water level gauge installed at the anchor to measure the total depth, and one end of the wire rope connected to the lower longitudinal central axis of the interlocking member, and the other end of the wire rope installed on the top of the interlocking member. Water level interlocking water temperature and flow rate monitoring by connecting to the weight maintaining weight through the guide roller provided in the It features a system.

Water level interlocking water temperature and flow rate monitoring system of the present invention is installed in a river or lake, etc. installed in the multi-stage foldable interlocking member that can be reduced and expanded according to the water level fluctuation, respectively, to install the detection device for measuring the water temperature and flow rate interlocked even when the water level fluctuations Since the members have the same stretching intervals between the connections installed in multiple stages in the longitudinal direction, the sensors installed at each connection and maintaining constant intervals to measure the water temperature and flow rate are measured by the water gauge to measure the accurate depth intervals. It is possible to accurately measure the flow rate, it is possible to monitor by transmitting the detection signal measured for each depth, there is an effect that can manage the water resources through accurate analysis.

1 is a perspective view showing the configuration of the water level interlock according to the present invention.
Figure 2 is a longitudinal sectional view showing the configuration of the water level interlock according to the present invention.
Figure 3 is an exemplary front view showing a state in which the interlocking member of the water level interlock according to the present invention is reduced in the longitudinal direction,
Figure 4 is an exemplary front view showing a state in which the interlocking member of the water level interlock device according to the present invention is extended in the longitudinal direction,
5 is an exemplary state of use for measuring the water temperature and flow rate by the depth using the water level interlock device of the present invention.
Figure 6 is an exemplary view showing a conventional water temperature and flow rate measured by the depth.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

The water level interlocking water temperature and flow rate monitoring system of the present invention is to measure the water temperature and the flow rate for each depth by installing in a river or lake, buoy 10 and the interlocking member 20, the sensor 30, the anchor 40 ), The water gauge 45, the wire rope 50, the weight 60 is made up.

The present invention is buoy 10 floating on the surface of the water and moving in the vertical direction in accordance with the water level, a plurality of connecting rods 22 are disposed alternately directly below the buoy 10 to the central axis portion 23 Connected and both ends are connected to the connecting shaft portion 24 in the longitudinal direction is stretched multi-stage foldable interlocking member 20, and installed in the multi-stage in the interlocking member 20, the sensor for measuring the water temperature and flow rate by depth ( 30) and the anchor 40 is installed at the lower end of the interlocking member 20 so that the lower end of the interlocking member 20 is vertically fixed at the lower portion thereof, and installed at the anchor 40 to measure the total depth. One end of the wire rope 50 is connected to the water gauge 45 and the lower end central shaft portion 23 in the longitudinal direction of the interlocking member 20, and the other end of the wire rope 50 is interlocking member 20. Guide rollers 64 and 64 'provided on the horizontal support 62 installed at the top of the The foldable linkage member 20 is stretched at equal intervals according to the water level by the pulley connected to the weight maintaining weight 60 for tension.

The buoy 10, the buoy body 12 is fixed to the coupling sphere 14, the upper end of the coupling sphere 14 to install the marker paper 16, etc. and the lower center of the coupling sphere 14 is vertical It is provided with a fixing piece 18 protruding downward to fix the horizontal support 62 to be horizontally rolled on both sides in the middle portion of the fixing piece 18, and the upper end of the interlocking member 20 can be connected to the lower end.

The interlocking member 20 has a plurality of connecting rods 22 alternately arranged in an “X” shape and connected to the central shaft portion 23, and both ends thereof are connected to the connecting shaft portion 24 to be stretched in the longitudinal direction. The rod 22 is arranged in two rows before and after so that the wire rope 50 can pass between the connecting rods 22 arranged in two rows so that the wire rope 50 does not come into contact with the connecting rods 22. To do this.

The lower end of the interlocking member 20 is connected to the anchor 40 which is grounded on the lower side, and the upper end is connected to the buoy 10 floating on the water surface, and the interlocking member 20 is stretched in the longitudinal direction according to the water level to maintain the vertical state. However, each connecting rod 22 installed in multiple stages on the interlocking member 20 is always reduced or extended at the same interval.

The detection sensor 30 is installed on one side of the central shaft portion 23 or the connecting shaft portion 24 of the connecting rod 22 that is stretched and connected in the longitudinal direction of the interlocking member 20 to detect the water temperature and the flow rate. The sensor 30 can be installed, and by sending the detection signal by measuring the water temperature and flow rate for each depth by the detection sensor 30 installed in multiple stages between the connection 22 to monitor.

The detection sensor 30 may be installed in each connection 22 of the multi-stage to be measured or installed at an arbitrary set interval to measure.

The anchor 40 is provided with a weight body that can be grounded on the lower surface in the water drop to maintain a fixed state so that the interlocking member 20 connected to the anchor 40 can be vertically fixed, anchor 40 Water level 45 is installed on the upper surface of the water temperature and flow rate so that it can be measured for each depth at the time of measurement, but measuring the total depth by one level 45 and each of the sensor 30 installed in the connection 22 Depth-specific measurements can be converted through the number of joints of the connecting rod 22 installed in multiple stages in the measured total depth, of course.

One end of the wire rope 50 is connected to each of the longitudinal lower end central shaft portion 23 of the interlocking member 20 in two rows to extend the interlocking member 20, and the other end of the wire rope 50 of the multi-stage central shaft 23 Tension weight 60 for maintaining tension through guide rollers 64 and 64 'formed at the center and side ends of the horizontal support 62 in a straight line between the connecting rods 22 arranged in two rows on both sides. In order to maintain the vertical state in the longitudinal direction interlocking member 20 is stretched by the wire rope 50 to the pulley action.

When described in detail by the accompanying drawings an embodiment according to the water level interlocking water temperature and flow rate monitoring system of the present invention as follows.

The present invention is installed in a river or lake, etc. buoy 10 and the interlocking member 20, the sensor 30, the anchor 40, the wire rope 50, weight 60 to measure the water temperature and flow rate for each depth When installing the monitoring system consisting of a) to the measuring point is installed in the form of dropping so that the anchor 40 can be grounded on the bottom.

At this time, the upper end of the multi-stage foldable interlocking member 20 connected to the upper end of the anchor 40 is connected to the lower end of the buoy 10 floating on the water surface can be stretched in the longitudinal direction and also of the interlocking member 20 The wire rope 50 connected to the lower longitudinal central shaft portion 23 to extend the interlocking member 20 is guide rollers 64 and 64 of the horizontal support 62 installed on the interlocking member 20. Pulling the wire rope 50 by the tension adjustment weight 60 through ') by the pulley action to extend the interlocking member 20 according to the water level according to the level of the folding interlocking member 20 is stretched in the longitudinal direction to maintain the vertical state Done.

That is, the multi-stage foldable interlocking member 20 according to the present invention is connected to and supported by the anchor 40 which is connected to the bottom of the lower ground in the longitudinal direction, and the upper end of the interlocking member 20 is connected to the buoy 10 and stretched. The wire rope 50 is connected to the lower end of the interlocking member 20 to extend the interlocking member 20 by the weight 60 which pulls the wire rope 50 in a vertical state. 20 is installed in the longitudinal direction in accordance with the water level of the buoy 10 floating on the water surface is connected to each other in a multi-stage connection between the 22 to maintain the same interval.

Thus, the interlocking member 20 is stretched in the longitudinal direction between the connection stage 22 of the multi-stage is installed at the same interval, so that the detection sensor 30 is installed in the connection stage 22 of the multi-stage to measure the water temperature and flow rate Even though the connection spacing is changed, the changed connection spacing is kept constant. Therefore, the total depth is measured by the water gauge 45 installed at the top of the anchor 40, and the number of joints between the connecting rods 22 installed in multiple stages is converted. By measuring the exact depth interval of each detection sensor 30 installed in the connecting rod 22 in the total depth measured by one water gauge 45 as a means to accurately measure the water temperature and flow rate for each depth, so It is possible to monitor by sending the detection signal measured by each star, so it is possible to manage water resources through accurate analysis.

While the present invention has been described with reference to the exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments.

10: buoy 12: buoy body
14: coupling sphere 16: marker paper
18: fixing piece 20: interlocking member
22: between connections 23: central axis
24: connecting shaft portion 30: detection sensor
40: anchor 45: water gauge
50: wire rope 60: weight
62: horizontal support 64,64 ': guide roller

Claims (5)

Buoy 10 that floats on the surface and moves in a vertical direction according to the water level,
A plurality of foldable interlocking members (22) are alternately arranged directly below the buoy (10) and connected to the central shaft portion (23), and both ends are connected to the connecting shaft portion (24) in the longitudinal direction to stretch and contract. 20) with,
Installed in multiple stages on the interlocking member 20, and a sensor 30 for measuring water temperature and flow rate for each depth;
An anchor 40 installed at a lower end of the interlocking member 20 so that the lower end of the interlocking member 20 is vertically fixed at a lower portion thereof;
A water gauge 45 installed at the anchor 40 to measure the total depth;
One end of the wire rope 50 is connected to the lower longitudinal central shaft portion 23 of the interlocking member 20, and the other end of the wire rope 50 is provided on the upper end of the interlocking member 20. Level interlocking water temperature and flow rate monitoring system, characterized in that it is connected to the weight maintaining weight 60 through the guide rollers (64) (64 ') provided in the.
The method of claim 1,
The buoy 10,
The buoy body 12 is fixed to the coupling sphere 14, but the upper end of the coupling sphere 14 to install the marker paper 16, the lower center of the coupling sphere 14 is fixed vertically protruding downward (18) Water level interlocking water temperature and flow rate characterized in that the horizontal support 62 is fixed to the middle portion of the fixing piece 18 so as to be fixed to the middle portion of the fixing piece 18 and the lower end portion can be connected to the upper end of the interlocking member 20. Monitoring system.
The method of claim 1,
The interlocking member 20,
A plurality of connecting rods 22 are alternately arranged in an “X” shape to be connected to the central shaft portion 23, and both ends thereof are connected to the connecting shaft portion 24 to be stretched in the longitudinal direction, but the connecting rods 22 are before and after. Level interlocking water temperature and flow rate monitoring system, characterized in that the wire rope 50 is passed between the two rows arranged between the connection line 22 arranged in two rows.
The method of claim 1,
The detection sensor 30 is installed in multiple stages on one side of the central shaft portion 23 or the connecting shaft portion 24 of the connecting rod 22 to measure the water temperature and flow rate for each depth to send and monitor the detection signal Interlocking water temperature and flow rate monitoring system, characterized in that.
The method of claim 1,
One end of the wire rope 50 is connected to each of the longitudinal lower end central shaft portion 23 of the interlocking member 20 in two rows to extend the interlocking member 20, and the other end of the wire rope 50 of the multi-stage central shaft 23 Tension weight 60 for maintaining tension through guide rollers 64 and 64 'formed at the center and side ends of the horizontal support 62 in a straight line between the connecting rods 22 arranged in two rows on both sides. Level interlocking water temperature and flow rate monitoring system, characterized in that in connection with.

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