KR20040012103A - Propeller type current meter and its current measurement method - Google Patents

Abstract

PURPOSE: An apparatus for measuring the flow of waterways with a propeller and a method for calculating the amount of flow by using the same are provided to measure the flow of the waterways without depending on the condition of the waterways such as a depth of the water. CONSTITUTION: An apparatus(20) for measuring the flow of the waterways with a propeller includes a sensor(31), a propeller, a propeller main body(29), a space member(40), a body(22) and a sensor(30). The propeller is in the form of sphere and the sensor(31) is installed on the outside of the propeller. The propeller main body(29) is installed 4 directions along the rotational axis(23), The space member(40) is formed in such a way that the rotational axis(23) of the propeller main body(29) is rotatably inserted into the groove. The groove is capable of supporting the rotational axis(23) to the rotational axis height(24) at the left and right sides of the inner spacer member(40). The sensor(30) is formed on the top of the body(22) by determining the heights of the inlet(27) and the outlet(25) based on the rotational axis height(24) of the propeller main body(29) at the front surface and the rear surface of the body(22).

Description

Propeller type flow velocity measuring device and flow calculation method using same {Propeller type current meter and its current measurement method}

The present invention relates to a river flow rate measuring device using a propeller for measuring the flow rate of the river to calculate the flow rate of the river to determine the cross section of the river, etc. to reflect in the dimensional plan of the river, the spherical shape around the axis of rotation The spherical central part has a propeller-type river formed with a body in which a propeller forming a penetrating part is formed in the body so that a propeller body installed in four directions can rotate, and an inlet and an outlet are integrally formed at the front and the rear of the space, respectively. A sensor is installed on the outside of the propeller of the flow rate measuring device, and a sensing device is installed on the upper part of the body to detect the number of revolutions of the propeller at the detector and transmits it to a computer to calculate the flow rate of the river using a preset program. Propeller-type river flow rate measurement to determine the flow rate Values and relate to flow rate calculation method using the same.

Since the river flow velocity measuring device using the propeller can measure the flow velocity regardless of the propeller specification, it is possible to make the flowmeter compact and easy to carry, and it is possible to measure the flow velocity even in the river with the depth of 5cm. Regardless of the flow rate measurement is possible. In addition, it is a measuring device that can measure the flow rate of the river during flooding, especially the average flow rate, when it is attached to the pier to measure the flow velocity of the river even in the inaccessible flood. The object is to provide a device that can measure.

In general, in order to calculate the flow rate of natural rivers, the flow rate is measured using the flow rate continuous equation Q 연속 AV. In this case, A represents the cross-sectional area of the stream and is already reflected in the design, so the cross-sectional area of the stream can be easily calculated, but in the case of V, the flow rate of the stream is shown, showing various flow rates according to the flow conditions of the stream and the bottom conditions of the stream. Therefore, the accuracy of the dimensional planning or design of the stream depends on how accurately the flow velocity of the stream, that is, the average flow velocity, is measured. In view of this point, conventionally, a device for measuring the flow velocity of a river is a method of measuring the flow velocity by rotation of an aroma meter attached to the front of a direction meter, but the weight of the river is at least 20 ~ due to the weight added to maintain the weight. It is inconvenient when measuring because it can be measured only when it is 30 cm or more and there is a sense of weight by weight. In addition, since flooding is impossible for humans during flooding, the method of estimating the flow rate by measuring the time that the enveloper passed a certain section by dropping the enveloper from the bridge, In order to indirectly calculate the average flow velocity, which is the flow rate of the 2/3 point from the river surface to the bottom, because it is difficult to accurately measure the flow velocity due to the irregular flow of the stream, and even if it is measured. There is a problem in that it is impossible to calculate the correct average flow rate by measuring the flow rate by applying a conversion factor.

In view of the problems described above, the present invention can measure the flow velocity of the river under any conditions of the river regardless of the usual and flooding, and at the same time, it can be manufactured in a small size, so that it is easy to carry, and the river has a very shallow depth. It also relates to the provision of the flow rate measuring device of the river that can be applied to accurately measure the flow rate and a method for measuring the flow rate using the same.

1 (a) and (b) are sectional views showing a conventional flow rate measuring device.

Figure 2 is a cross-sectional view showing a propeller type river flow rate measuring apparatus according to the present invention.

Figure 3 is a detailed cross-sectional view showing the details of the propeller according to the present invention.

Figure 4 is a process diagram showing the process of measuring the flow rate using the flow rate measuring apparatus of the present invention.

Brief description of the main parts of the drawing

B: length of rotation shaft b: propeller width

1: Directional flowmeter 2: Position maintaining device

3: rope 4: direction meter

5: sensor 6: weight

10: sealer flow rate measuring device 11: sand

12: PVC pipe 20: Propeller type flow rate measuring device

21: propeller 22: body

23: rotating shaft 24: rotating shaft height

25: outlet 26: bottom

27 inlet port 28 through part

29: propeller body 30: detection unit

31 sensor 40 space part

The present invention relates to a river flow rate measuring apparatus using a propeller for accurately measuring the flow rate of the river to calculate the flow rate of the stream, the spherical shape of the spherical central portion of the propeller 21 to form a through-hole 28 is a rotating shaft A space portion 40 is formed therein so that the propeller body 29 installed in four directions with respect to the center 23 rotates, and the inlet 27 and the outlet 25 are respectively formed at the front and rear of the space 40. As a propeller type river flow rate measuring device (20) consisting of a body 22 is formed integrally with the propeller 21, the sensor 31 is installed on the outer side of the propeller 21 and the sensing unit 30 is installed on the upper portion of the body 22 propeller The rotation speed of the 21 is sensed by the sensing unit 30, and the rotation speed of the propeller 21 is input to a preset program in a computer connected to the sensing unit 30 to calculate the flow velocity of the stream to determine the flow rate of the river. Calculate Propeller Stream Flow It relates to a measuring device and a flow rate calculation method using the same.

Hereinafter, the flow rate measuring apparatus of the river and the flow rate calculation method using the same according to the accompanying drawings in detail as follows.

1 (a) and (b) are cross-sectional views showing a conventional flow rate measuring device, and (a) is a device for measuring the flow velocity of a river at a normal depth of water, and the apparatus 4 on which the sensor 5 is attached and on the opposite side thereof Position holding device (2) for maintaining the posture of the weight and the lower part of the device to allow the device to reach a certain depth and weight of the device to hold the center of gravity of the device so that it does not easily flow to the water flow (6) It consists of a directional flowmeter (1) connected to the rope (3) and the sensor (5) that transmits all the values of the device (5) that binds their devices together, and (b) is the flow rate of the stream during the flood A device for measuring the flow velocity by filling a heavy object such as sand (11) at a certain height in the lower end of the PVC pipe (12) about 40 mm in diameter and dropping it into a river in a bridge, etc. Flow rate measuring device (10) A diagram showing.

2 is a cross-sectional view showing a propeller type flow velocity measuring apparatus according to the present invention having a spherical shape, but having a through-hole 28 at a spherical center portion, and a propeller 21 having a sensor 31 installed at an outer side thereof. Rotation shaft 23 by forming a groove (not shown) to support the rotation shaft 23 on the left and right sides of the inner space portion 40 that can be rotated propeller body 29 installed in four directions about the Propeller-type river flow rate measuring device consisting of a body 22 formed with a sensing unit 30 on the upper portion of the inlet 27 and the outlet 25 are integrally formed on the front and rear of the space 40, respectively. As the sensor 20, the sensor 31 is installed on the outside of the propeller 21, and the sensing unit 30 is installed on the upper portion of the body 22 to detect the rotational speed of the propeller 21 in the sensing unit 30 to rotate the propeller. The solution is pre-populated into the computer connected to the detector. Enter the program to calculate the flow rate. At this time, in order for the propeller to rotate naturally in the flow of the river without receiving water pressure, the rotation shaft height 24, which is the height from the bottom portion 26 to the rotation shaft 23, must be positioned above the height of the inlet 27 so that the rotation shaft ( 23) The propeller 21 should not be subjected to the flow of water, that is, the water pressure in the upper portion, but only to the propeller 21 under the rotary shaft 23 to receive the water pressure by the flow of water flowed into the inlet port 27 to be naturally rotated. In addition, the height of the outlet 25 is lower than the height of the inlet 27 should always be below the height of the inlet 27. Therefore, the height of the rotation shaft 23 of the propeller body 29 must be considered when manufacturing the body 22 such that the height of the inlet 27 is next to the uppermost side and the outlet 25 is next. The material of the body 22 is not particularly limited to materials such as plastic, rubber products. Also, the material of the propeller 21 may be any material that can rotate in response to the flow of water accurately. However, when the material is light, the reaction is quick and the reaction is sensitive to the flow of water, so it is desirable to have a light material such as plastic that can rotate. In addition, the propeller penetrations must be installed or the propeller will not rotate without it. When the sensor 31 selects a light emitter, the sensing unit 30 may be an electronic sensing unit capable of detecting light emission. However, the device presented here is not limited to this as showing an embodiment, it is clear that it is possible to measure the flow rate by applying a variety of devices depending on the site conditions. If the river flow rate measuring device 20 is installed in a place such as a pier to measure the flow rate of the river during flooding, and the flow rate of the river is measured, the flow velocity of a certain depth such as the average flow rate, rather than the flow rate of the water, can be measured relatively accurately. Can be.

FIG. 3 is a detailed cross-sectional view showing the details of the propeller 21 according to the present invention. The propeller 21 having the penetrating portion 28 penetrating the central portion of the spherical thin plastic sheet is formed around the rotating shaft 23. As showing the propeller body 29 installed in the direction, the sensor 31 is installed on the outer side of the propeller 21.

4 is a process chart showing a process of measuring the flow rate using the river flow rate measuring apparatus of the present invention. Since the speed of the propeller is different according to the flow rate of the river, the speed of the sensor installed in the propeller is detected by the sensing unit attached to the upper part of the body. And input it to the programmed analysis program, the flow velocity is calculated. The formula for estimating the flow rate is V 〓 CN where V is the flow rate, C is the flow rate conversion factor, and N is the number of revolutions of the propeller. The flow rate conversion coefficient is a coefficient determined by the authority of the prestigious inspector, and the flow rate is calculated using these various values, where the continuous flow equation is Q 〓 AV, Q is the flow rate, and A is the cross-sectional area of the stream. V represents the flow velocity of the stream and calculates the flow rate using the flow velocity calculated by the rotation speed of the propeller.

The present invention relates to a river flow rate measuring device using a propeller that can measure the flow velocity of a certain depth, such as the average flow rate of the river, etc. The device can be manufactured in a small size is easy to carry and the conditions of the river namely the depth of the river It is a very useful invention that can measure the flow velocity irrespective of the flow rate, and in particular, it is possible to measure the average flow velocity of the river at the time of flooding.

Claims (6)

A propeller 21 having a spherical shape and having a sensor 31 installed at an outer side thereof is provided at a height of the rotation shaft 24 on the left and right sides of the propeller body 29 and the inner space 40 provided in four directions about the rotation shaft 23. The propeller body on the front and rear of the body 22, which allows the rotation shaft 23 of the propeller body 29 to be rotated by inserting the rotation shaft 23 of the propeller body 29 into the groove capable of supporting the rotating shaft 23 The height of the inlet 27 and the outlet 25 is determined in consideration of the height of the rotation shaft 24 of the 29 to be integrally formed, but the sensing unit 30 is formed on the upper part of the body 22. Propeller type flow velocity measuring device. The method of claim 1 The rotation shaft height 24 of the propeller body 29 is always located above the height of the inlet opening 27 so that the upper end of the rotation shaft 23 of the propeller body 29 in the space portion 40 through the inlet opening 27. Propeller-type river flow rate measuring device, characterized in that the flow is affected by the flow only at the lower end without being affected by the flow of water. The method of claim 1 The rotation shaft height 24 of the propeller body 29 and the height of the inlet port 27 and the outlet port 25 are the highest rotation shaft 23 of the propeller body 29 from the bottom portion 26, the next inlet 27 Propeller type river flow rate measuring device, characterized in that the body 22 is integrally formed to be the height of the outlet (25). The method of claim 1 The spherical propeller (21) is a propeller type river flow rate measuring apparatus, characterized in that the through portion formed in the center. Fixing the propeller type river flow rate measuring device 20 in consideration of the flow of the river at the bottom of the river; Sensing the rotational speed of the sensor 31 installed at the outer side of the propeller 21 by the sensing unit 30 attached to the upper portion of the body 22 to transmit the propeller rotational speed to the computer; Calculating a flow rate using V V CN which is a flow rate calculation formula while inputting various conditions such as the number of rotations of the propeller 21 transmitted to the analysis program that is inputted and programmed in advance; And A flow rate estimation method using a propeller-type river flow rate measuring device, characterized in that the flow rate is calculated by the continuous equation Q 〓 AV for calculating the flow rate using the calculated flow rate. The method of claim 5 The flow of the stream is a flow rate calculation method using a propeller type flow rate measuring device, characterized in that the step of installing a propeller type flow rate measuring device 20 in the piers during flooding.