KR20200133912A - Testbed for flow rate detecting type flood gate and testing method by this - Google Patents

Abstract

The present invention relates to a test bed, which can test a water barrier device (30) allowing a floodgate (32) to be automatically opened by detecting a flow rate of flowing water indoors when the flowing water at the quick flow rate is introduced due to a rapid increase in a water level. To this end, the test bed includes: a water supply part supplying the flowing water from a water supply tank (11); a waterway part (20) having a space through which the flowing water is moved; a floodgate part having the water barrier device (30) opened by detecting the flow rate of the flowing water; and a draining part draining the water moved by passing through the floodgate part.

Description

Testbed for flow rate detecting type flood gate and testing method by this}

The present invention relates to a test bed of a flow rate sensing water blocking device, and more specifically, a test bed that enables a test of a water blocking device in which a water gate is automatically opened when running water having a constant flow rate is detected, and a water curtain using the same. It relates to the test method of the device.

Bo (洑) is an essential facility with high utility in agriculture as it is a water storage facility built by building a bank in a river, and the stored water is used as irrigation water. However, when the flow rate in the river increases due to rainfall, snowfall, etc., the water level of the reservoir rises, and if the limit is exceeded, the reservoir water overflows and damages the farmland. Therefore, it is necessary to discharge the reservoir that has reached the dangerous level, and for this purpose, various types of water barriers are installed on the beam.

On the other hand, conventional manually operated water barriers require maintenance personnel, and most of the water barriers are installed in rural areas, so it is difficult to maintain and manage them with aging rural personnel, and when the water gate is opened, it is operated by water pressure. There is a lot of danger, such as being washed away by water. Therefore, in terms of manpower, budget, and safety, it is necessary to automate the opening and closing of the sluice gate so that the sluice gate is automatically opened when a certain amount of water is exceeded.

In addition, even when the reservoir water reaches a certain level, it may be necessary to prevent the sluice gate from being opened if necessary. Therefore, it is necessary to selectively open the sluice gate only in dangerous conditions in which a large amount of rainwater rapidly flows into the river within a short time due to the rainy season or heavy rain and the water level rises rapidly.

However, since the actual operation of the water blocking device as described above may differ from expected, it is necessary to perform an operation test before installation. For this purpose, installing a water blocking device on the actual beam for testing is too inefficient, so a separate test facility In the test needs to be done.

In addition, it is necessary to test while adjusting variables such as flow rate and flow rate in order to grasp the operating conditions of the water blocking device. For this purpose, the test needs to be performed on a test bed equipped with several sensing devices and control devices.

In addition, in order to obtain data of several samples, it is necessary to replace and test the water barrier. To this end, the water barrier needs to be designed to be easily detachable from the test bed.

Korean Registered Patent Publication No. 10-1354973 Korean Patent Publication No. 10-1604772

The present invention was conceived to solve the above-described problems, and when flowing water at a fast flow rate is introduced due to a rapid rise in water level, it detects and automatically opens the sluice gate so that it can be tested indoors. It is aimed at.

In addition, it is intended to enable the test of several water blocking devices by enabling the detachment of the water blocking device.

In addition, it is an object to be able to test whether or not the water blocking device operates normally according to changes in the environment while changing the flow rate.

In order to solve the above problem,

The test bed of the flow rate sensing water blocking device according to the present invention includes a water supply part supplying running water from the water supply tank 11, a water passage part 20 having a space to move the running water, and a water blocking device that is opened by detecting the flow rate of running water. It characterized in that it comprises a sluice portion (30) is installed and a drainage portion for draining the water moved through the sluice gate.

In addition, the water supply unit is characterized in that it further comprises a first water level detection sensor that measures the level of water supplied and transmits a signal to the water supply control device, and a water supply control device that controls the amount of water to be supplied to a predetermined water level.

In addition, the water supply unit is characterized in that it further comprises a flow rate increasing device for increasing the flow rate of the running water by applying hydraulic pressure in the running direction.

In addition, the water channel unit 20 is characterized in that it further comprises a flow rate detection sensor 21 for detecting a flow rate to open the sluice door 32.

On the other hand, the sluice gate portion is characterized in that it further includes at least one protruding plate 22 formed in the waterway so that the water blocking device 30 is fitted.

In addition, the drainage portion is characterized in that it further comprises a drainage motor pump 41 that sucks water and returns it to the water supply tank 11.

Alternatively, unlike this, the drainage portion may further include a drainage motor pump 41 that sucks water and returns it to the front end of the channel so that the water is circulated.

In addition, the drainage part It characterized in that it further comprises a second water level detection sensor 43 for measuring the water level for operating the drainage motor pump (41).

On the other hand, the test method using the test bed of the flow rate sensing type water blocking device according to the present invention is a water supply step (S10) of supplying a predetermined water supply amount from the water supply tank 11, and the sluice gate 32 is increased by increasing the flow rate of the water supplied. Including a flow rate control step (S20) to pass through, a flow rate measurement step (S30) for measuring the flow rate to open the sluice gate 32, and a drainage step (S40) for removing water that has passed through the sluice gate 32 from the channel It features.

In addition, the drainage step (S40) is characterized in that the water that has passed through the sluice gate 32 through the drainage motor pump 41 is sucked from the waterway part and returned to the front end of the waterway part 20 to be circulated.

The test bed of the flow rate sensing type water blocking device as described above can test the water blocking device 30 indoors to automatically open the sluice door 32 by detecting when flowing water at a fast flow rate is introduced due to a rapid rise in water level. To be. In addition, it is possible to test several water blocking devices by facilitating the detachment of the water blocking device. In addition, while changing the flow rate, it is possible to test whether or not the water blocking device operates normally according to changes in the environment.

1 is a view showing a simplified configuration of a test bed of the flow rate sensing water blocking device according to the present invention
2 is a view showing a state in which the water blocking device 30 is installed on a test bed of the flow rate sensing type water blocking device according to the present invention.
3 is a flow chart showing a process of a test method using a test bed of the flow rate sensing water blocking device according to the present invention.

In describing the invention, the inventor may select or define an appropriate term or word. In this case, the term or word used in this case is not limited to the commonly used meaning, but in consideration of the intention of the inventor. It should be interpreted to conform to the technical idea embodied in the invention.

Accordingly, terms or words used in the specification and claims cannot be considered to be limited to the meanings commonly used. The details described below are only preferred embodiments of the present invention, and do not represent or limit all of the present technical idea, and thus there may be examples corresponding to elements and equivalent ranges that can be easily replaced from the standpoint of a person skilled in the art.

Hereinafter, on the basis of the above-described principles, a test bed of a flow rate sensing water blocking device according to the present invention and a test method using the same will be described with reference to the drawings.

1 is a view showing a simplified configuration of a test bed of the flow rate sensing water blocking device according to the present invention

2 is a view showing a state in which the water blocking device 30 is installed on a test bed of the flow rate sensing type water blocking device according to the present invention.

3 is a flowchart showing a process of a test method using a test bed of the flow rate sensing type water blocking device according to the present invention.

The test bed of the flow rate sensing water blocking device according to the present invention includes a water supply part supplying running water from the water supply tank 11, a water passage part 20 having a space to move the running water, and a water blocking device that is opened by detecting the flow rate of running water. It comprises a sluice portion 30 is installed and a drainage portion for draining the water moved through the sluice gate.

The water supply unit may include a water supply pipe 12 connected to the water supply tank 11. The outlet 13 of the water supply pipe 12 may be located at at least one of the front end and the rear end of the water channel 20, and is provided on both sides to quickly supply a flow rate as necessary or to create a condition of the required flow rate. It is preferred to be located.

The outlet 13 of the water supply pipe 12 may further include a water supply valve 14 to control whether water is supplied or not. The water supply valve 14 is preferably a ball valve having a small flow resistance and capable of operating with a small torque, but is not limited thereto.

Water stored in the water supply tank 11 is supplied through the water supply pipe 12, and the water stored in the water supply tank 11 may be provided through the water supply pipe 12 using a water supply motor pump.

If necessary, the water supply unit may further include a first water level sensing sensor that measures the level of water supplied and transmits a signal to the water supply control device, and a water supply control device that controls the amount of water to be supplied to a predetermined water level.

In addition, the first water level detection sensor may further include a separate display unit to display a real-time numerical value of the current water level.

In one possible embodiment, the water supply control device with a preset water supply amount receives the measured value of the current water level from the first water level sensor in real time, compares it with the preset water supply amount, and automatically when the set water supply amount is supplied. The water supply valve 14 can be closed.

The water supply unit may further include a flow rate increasing device for increasing the flow rate of the running water by applying water pressure in the running direction of the running water.

The flow rate increasing device can be configured in a variety of ways. As an example, as described later, the water sucked from the drainage part using the drainage motor pump 41 is moved back to the front end of the waterway part 20 to be supplied, but increasing the suction power of the drainage motor increases the speed at which water is circulated. By doing so, a method that can increase the flow rate can be adopted.

As another example, a separate flow rate increasing pump may be further included to apply water pressure to the front end of the channel 20 in the direction of flow of the running water. That is, it is possible to adjust the flow rate separately from the water supply pump by applying water pressure to the supplied water in the direction of flowing water.

As another example, the outlet 13 of the water supply pipe 12 is installed to face the running direction of the running water, and a method of increasing the flow rate by increasing the flow rate to be supplied may be employed.

By further including a flow rate increasing device, the test bed according to the present invention can detect the flow rate and test the water barrier 30 in which the sluice door 32 is automatically opened.

Looking at a preferred embodiment of the water block device 30 in which the sluice door 32 is automatically opened by sensing the flow rate, the same running water at a certain flow rate or more applies water pressure to the flow rate detection panel 31 installed in the water block device 30. If so, the flow rate detection panel 31 is rotated, and thus the sluice door 32 may be configured to be opened automatically.

The channel unit 20 may further include a flow rate sensor 21 for sensing a flow rate at which the sluice door 32 is opened. It is preferable that the flow rate sensor 21 is installed adjacent to the water blocking device 30 so that the flow rate of the running water passing through the sluice door 32 is measured relatively accurately when the sluice door 32 is opened.

In addition, the flow rate sensor 21 may further include a separate display unit so that a real-time value of the current flow rate is expressed.

The sluice may include at least one protruding plate 22 formed in the waterway so that the water blocking device 30 is fitted.

In one embodiment, as shown in FIG. 2, a plurality of protruding plates 22 may be formed in a shape of “a” from the side plate of the sluice portion so that the water blocking device 30 can be fitted. Through this, it is possible to make the water barrier 30 detachable to the sluice.

If necessary, it may be necessary to measure the result of the test and change the design of the water blocking device to perform the test of another water blocking device.By adopting a configuration that can be fitted including the protruding plate 22, while changing the water blocking device, The test becomes possible.

The drainage part may further include a drainage motor pump 41. Water that has passed through the sluice gate 32 and moved to the drain may be sucked by the drain motor pump 41 and sent back to the water supply tank 11 or sent back to the front end of the channel.

That is, when the total flow rate is reduced or the test is terminated, the water sucked by the drain motor pump 41 is returned to the water supply tank 11.

Alternatively, the water arriving at the drainage portion may be sucked through the drainage motor pump 41 and then moved back to the front end of the channel portion 20 to perform a test in which water is circulated.

To this end, the drain pipe 42 connected to the drainage motor pump 41 may include a water supply tank 11 and a branch point 44 branching to a front end of the water channel 20, and a branch point for setting the branch direction. A valve 45 may be further included.

The branch point valve 45 employs a butterfly valve so that the opening and closing operation is made simple and fast, and it is preferable to withstand the application of high water pressure due to rapid circulation of flowing water, but the type of the valve is limited thereto. no.

The drainage part may further include a second water level detection sensor 43 that measures a water level for operating the drainage motor pump 41. As an embodiment, whether or not the drain motor pump 41 is operated may be controlled by a separate control unit, and automatically when the water level recognized by the second water level sensor 43 matches the water level preset in the control unit. The drain motor pump 41 may be set to operate.

In addition, the second water level detection sensor 43 may further include a separate display unit to display a real-time numerical value of the current water level.

The test method using the test bed of the flow rate sensing water blocking device according to the present invention includes a water supply step (S10) of supplying a predetermined water supply amount from the water supply tank 11, and passing the water gate 32 by increasing the flow rate of the water supplied. The flow rate control step (S20), the flow rate measurement step (S30) of measuring the flow rate to open the sluice gate (32), and the drainage step (S40) of removing the water passing through the sluice gate (32) from the water channel can be performed. have.

The water supply step (S10) may further include the step of setting the water supply amount required for the test. When using a test bed equipped with a water supply control device, inputting the water supply amount required for the test into the water supply control device and the real-time water level during water supply It may further include the step of receiving the measured value of in real time, comparing it with a preset water supply amount, and stopping water supply when reaching a predetermined water level.

The flow rate control step (S20) may be performed using a flow rate control device. Adjusting the flow rate by increasing the circulation speed of water using the drainage motor pump 41, adjusting the flow rate by applying water pressure in the direction of flow of the running water using the flow rate increasing pump provided at the front end of the water channel 20, At least one or more of the steps of increasing the flow rate by increasing the flow rate supplied by installing the outlet 13 of the water supply pipe 12 to face the running direction of running water may be further included.

The flow rate measurement step (S30) is a step of measuring the flow rate when the sluice door 32 is opened, and may be performed through the flow rate sensor 21. The flow rate sensor 21 may further include a separate display unit so that the user can recognize the flow rate at the moment when the sluice door 32 is opened. If necessary, the flow rate sensor 21 may recognize the operation of the sluice door 32 to automatically record the flow rate at the time the sluice door 32 is opened.

In the drainage step, when the total flow rate is reduced or the test is terminated, the water that has passed through the sluice gate 32 through the drain motor pump 41 is moved or discharged from the water channel to the water supply tank 11 The process can be carried out.

Alternatively, in the drainage step, the water that has passed through the sluice door 32 through the drainage motor pump 41 may be sucked from the waterway portion and returned to the front end of the sluice door 32 so that the running water is circulated.

To this end, the step of controlling the water sucked from the drainage motor pump 41 through the branch point valve 45 at the branch point 44 so that it can be moved to the front end of the water supply tank 11 or the water channel 20 as necessary. It can be included more.

11: water supply tank 31: flow rate detection panel
12: water supply pipe 32: sluice gate
13: water supply pipe outlet 41: drain motor pump
14: water supply valve 42: drain pipe
20: channel part 43: second water level detection sensor
21: flow rate sensor 44: branch point
22: protruding plate 45: branch point valve
30: water barrier

Claims (10)

A water supply unit for supplying running water from the water supply tank;
A water channel part having a space through which the running water supplied from the water supply part moves;
A sluice unit installed with a water barrier that is opened by sensing a flow rate of flowing water moving through the channel unit; And
A drain portion for draining the water that has passed through the sluice portion;
Test bed of the flow rate sensing type water blocking device comprising a The method of claim 1,
The water supply unit,
A first water level detection sensor that measures the level of the water supplied and transmits a signal to the water supply control device;
Test bed of the flow rate sensing type water blocking device, characterized in that it further comprises The method of claim 1,
The water supply unit,
A flow rate increasing device for increasing the flow rate of running water by applying water pressure in the running direction of running water;
Test bed of the flow rate sensing type water blocking device, characterized in that it further comprises The method of claim 1,
The channel part,
A flow rate detection sensor that senses a flow rate to open the sluice gate;
Test bed of the flow rate sensing type water blocking device, characterized in that it further comprises The method of claim 1,
The sluice portion,
At least one protruding plate formed inside the waterway so that the water blocking device is fitted;
Test bed of the flow rate sensing type water blocking device, characterized in that it further comprises The method of claim 1,
The drainage part,
A drain motor pump that sucks water and returns it to the water supply tank;
The test bed of the flow rate sensing type water blocking device further comprising a The method of claim 1,
The drainage part,
A drain motor pump that sucks water and returns it to the front end of the water channel so that water is circulated;
The test bed of the flow rate sensing type water blocking device further comprising a The method of claim 1,
The drainage part,
A second water level detection sensor measuring a water level for operating the drain motor pump;
Test bed of the flow rate sensing type water blocking device, characterized in that it further comprises A water supply step of supplying a predetermined water supply amount from the water supply tank;
Flow rate control step of increasing the flow rate of the water supplied to pass through the sluice gate;
A flow rate measurement step of measuring a flow rate at which the sluice gate is opened; And
A drainage step of removing water that has passed through the sluice gate from the channel;
Test method using a test bed of the flow rate sensing type water blocking device comprising a The method of claim 9,
The drainage step,
A test method using a test bed of a flow rate sensing water blocker, characterized in that the water that has passed through the sluice gate through the drainage motor pump is sucked from the channel and returned to the front end of the channel to be circulated.

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