KR101986820B1 - Portable fluid velocity meter - Google Patents

Abstract

The present invention is to provide a portable fluid velocity meter comprising: a housing having a flow path which is immersed in the river and in which the river flows from an inlet of one side and flows out to an outlet of the other side; a fluid velocity measuring means installed in the flow path of the housing and measuring the flow velocity of the river through a rotary blade rotating without force by the flow of the river; and a tie bar of which one end is hinged to be rotatable to the outside of the housing, and the other side can be gripped by a worker located on the river. According to the present invention, the portable fluid velocity meter can measure the fluid velocity even in the shallow water, can be easily installed and can easily perform a fluid velocity operation due to a compact structure and is portable.

Description

Portable Fluid Velocity Meter

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a portable flowmeter, and more particularly, to a portable flowmeter, which is capable of measuring a flow velocity even in a shallow depth of a river or the like and is easy to install and carry.

In general, in the case of natural rivers, the cross-sectional area of the stream and the flow velocity of the stream are respectively calculated and the flow rates are measured. The flow rate of the stream can vary depending on the flow rate of the stream and the bottom conditions of the stream. 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.

Thus, as an example of a technique for measuring the flow velocity of the river, conventionally, the propeller body having a spherical shape but having a sensor installed on the outer side of the propeller body installed in four directions around the rotating shaft and the rotating shaft height on the left and right sides of the inner space part is provided. A flowmeter having a sensing part formed on an upper portion of a body forming a space part to rotate by inserting a rotating shaft of the propeller body into a groove capable of supporting the rotating shaft in the chamber, wherein the height of the rotating shaft of the propeller body is greater than the height of the inlet port. The height of the inlet and outlet of the front and rear of the body is determined so that the upper end of the rotating shaft of the propeller body, which is always located upward, is not affected by the flow of water flowing through the inlet, but is affected only by the flow of the lower end. Propeller type river oil characterized by being integrally formed It may bar the measuring device disclosed in the Republic of Korea Patent No. 10-474372.

By the way, the conventional device for measuring the flow rate of the river has a local limit that can measure the flow rate because it is difficult to measure the flow rate in the shallow water depth, the size of the entire device is difficult to install when the flow rate measurement In addition, there was a problem that is difficult to carry.

Republic of Korea Patent No. 10-474372

It is an object of the present invention to provide a portable flowmeter that can not only measure the flow rate even in a shallow water depth, but also make it easy to carry and measure the flow rate.

The present invention is immersed in the river and the stream is introduced from the inlet on one side of the stream is formed in the housing and the flow path for the stream flows into the outlet of the other side, rotatably installed in the passage of the housing and installed in parallel with the longitudinal direction of the housing Flow rate measuring means for measuring the flow rate of the river through the rotary shaft and the rotary blade rotating without power by the flow of the river in combination with the rotary shaft, one end is connected to the outside of the housing, the other side is located on the river side It provides a portable flowmeter comprising a support rod that is capable of gripping.

Here, the housing is preferably formed such that the inlet and the outlet are aligned in the same line.

In addition, the housing is preferably formed in a cylindrical shape in which one side and the other side is open.

Further, the flow rate measuring means, the flow rate measuring device for measuring the flow rate of the river through the rotation speed of the rotary blade, and the flow rate value of the river measured by the flow rate measuring device connected to the flow rate measuring device is displayed, It is installed on the other side of the support rod may be configured to include a display unit for the operator to check the flow rate of the river.

In addition, the housing may further comprise a horizontal holding means for maintaining the housing to be horizontal to the moving direction of the river.

Here, the horizontal holding means may be configured by a hinge connecting portion to be rotatable with the housing by coupling to one end of the support rod.

Here, the hinge connection portion, it is preferable to be installed to be deflected toward the inlet side of the housing.

Alternatively, the horizontal holding means is installed in the housing on the inlet side, when the flow rate of the stream in the plate shape is higher than the predetermined flow rate is composed of guide vanes arranged horizontally or vertically or crosswise to the flow direction of the stream Can be.

Alternatively, the horizontal holding means may be configured as buoyancy means connected to the housing to maintain the housing in a parallel state with respect to the flow direction of the river.

Here, the buoyancy means, one end is connected to the connection member is connected to the outlet side of the housing, and the buoyancy body to be coupled to the other end of the connecting member to pull the housing to maintain parallel to the flow direction of the stream Can be configured.

At this time, the buoyancy means, it is preferable that the flow rate of the stream is lower than the predetermined flow rate is connected to the housing is installed.

On the other hand, the flow rate measuring means may further comprise a flow rate correction means for correcting the flow rate error value according to the movement of the housing.

Here, the flow rate correction means is installed on the support rod, the on (On) switch for the user to enter the start of the flow rate measurement, the off (Off) switch for inputting the end of the flow rate measurement, and the start of the flow rate measurement by the on switch and And an arithmetic control unit configured to arithmically control the average velocity value measured between the flow rate measurement ends by the off switch.

In addition, the flow rate correction means is installed on the support rod (On) switch for the user inputs the start of the flow rate measurement, the position measurement module for measuring the position of the housing, and the position of the housing received from the position measurement module When the position value coincides with the on-switch input position value, the flow velocity measurement ends, and the flow rate is measured between the start of the flow velocity measurement by the on-switch and the end of the flow velocity measurement by the position value of the housing received from the position measurement module. It may be configured to include an operation control unit for operation control of the average flow rate value.

Here, the position measuring module may be configured by being applied as a gyro sensor or a GPS sensor.

The portable flowmeter according to the present invention provides the following effects.

First, it is possible to measure the velocity even in shallow water.

Second, the compact structure makes installation and flow rate measurement easy and portable.

1 is a view showing the configuration of a portable flow meter according to an embodiment of the present invention.
FIG. 2 is a plan view when the portable flowmeter of FIG. 1 is viewed in plan view. FIG.
3 is a view showing the horizontal holding means by the hinge connection in the portable flow meter of FIG.
4 is a side view showing the horizontal holding means by the guide vane in the portable flowmeter of FIG.
5 is a side view illustrating another embodiment of the guide vane of FIG. 4.
6 is a side view illustrating another embodiment of the guide vane of FIG. 4.
7 is a block diagram showing the configuration of the flow rate correction means in the portable flow meter of FIG.
8 and 9 are views illustrating various embodiments of the hinge connector of FIG. 3.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

First, referring to FIGS. 1 and 2, a portable flowmeter according to an embodiment of the present invention includes a housing 100, a flow rate measuring means 200, and a support rod 300.

The housing 100 is immersed in the stream and the fluid of the stream flows from the inlet 101 of one side is configured to form a flow path for the fluid flowing into the outlet 102 of the other side. Here, the portable flowmeter is configured to measure the flow rate of the stream flows into the river, but this is shown as an example, if the flow rate of the moving water flows with the flow rate, such as rivers and rivers can be applied to all.

The housing 100 is preferably formed such that the inlet 101 and the outlet 102 are aligned on the same line. This is because if the inlet 101 and the outlet 102 are not in the same line, it is difficult to measure the flow rate more accurately as the flow of fluid is changed.

On the other hand, the housing 100, it is preferable that one side and the other side is formed in a cylindrical shape as shown. This is because it has a shape corresponding to the circular shape of the rotary blade 210 to be described later, the shape structure that minimizes the flow flow interference when the fluid flows in the housing 100.

The flow rate measuring means 200 is installed in the flow path of the housing 100 and serves to measure the flow velocity of the river, is installed rotatably in the flow path of the housing 100 and parallel to the longitudinal direction of the housing 100. It is configured to measure the flow velocity of the river through the rotary shaft 211 is installed, and the rotary blade 210 is rotated in a non-powered manner by the flow of the river in combination with the rotary shaft 211.

 In detail, the flow rate measuring means 200 includes a flow rate measuring device 220 and a display 230. The flow rate measuring device 220 measures the flow rate of the stream through the rotation speed of the rotary blade 210 through the operation control unit 240 (see Fig. 3).

For example, the flow rate measuring device 220 may be configured to measure the flow rate by measuring the rotational speed of a predetermined time of the rotary blade 210 and calculates the measured rotational speed as the flow rate through the operation control unit 240 to measure the flow rate. . On the other hand, the flow rate measuring device 220 can measure the flow rate through a method for calculating the rotational speed of the rotary blade 210 as described above, but this is an embodiment to achieve the above object Of course, a variety of methods can be applied if possible.

The display unit 230 is connected to the flow rate measuring device 220 to display the flow rate value of the stream measured by the flow rate measuring device 220, is installed on the other side of the support rod 300, the operator to check the flow rate of the river To help.

The support rod 300 is one end is connected to the outside of the housing 100, the other side is to be held by the worker located on the river side.

Here, the support rod 300 is rotatably connected to the housing 100 by the hinge connecting portion 310 to be rotatable by the flow of the river, a detailed description thereof will be described later.

On the other hand, the accuracy of the fluid flow rate is affected by the rotary blade 210 and the flow direction and position of the fluid bar, the direction in which the rotary blade 210 is perpendicular to the flow direction, that is, the rotation axis 211 of the rotary blade 210 is the fluid It is necessary to position it in parallel with the flow direction of to allow more accurate fluid measurement.

Accordingly, the housing 100 may further include horizontal holding means (400, 400a, 400b) for maintaining the housing 100 to be horizontal to the moving direction of the river.

Referring to this, referring first to Figure 3, the horizontal holding means 400 may be composed of a hinge connecting portion 310 to be rotatable with the housing 100 is coupled to one end of the support bar (300).

The hinge connector 310 is rotatably connected to the support rod 300 in accordance with the flow of the stream with respect to the support rod 300, so that the housing 100 is horizontally positioned in accordance with the flow of the stream. Here, the hinge connecting portion 310 is preferably configured to rotate only in the horizontal transverse direction, not the up and down direction in the figure so that when the flow flow of the river is a horizontal direction, to maintain a horizontal state with the river.

On the other hand, the hinge connector 310 is preferably installed to be biased toward the inlet 101 side of the housing 100 so as to be horizontally positioned more easily with respect to the flow of the river.

In addition, the horizontal holding means 400 may be applied to the guide vane 410 installed in the housing 100 of the inlet 101 side. The guide vane 410 is provided when the flow rate of the river in the plate shape is higher than the predetermined flow rate, it is disposed in a vertical direction.

Here, although the hinge connection part 310 and the guide vane 410 are installed in the housing 100 at the same time, the hinge connection part 310 and the guide vane 410 are different from each other in the housing 100. It may be installed.

Referring to FIG. 4, the horizontal holding means 400a applies a guide vane 411 arranged in a horizontal direction. Here, the guide vanes (410, 411) is composed of a single plate in the drawing, but it is a matter of course that a plurality of plates can be arranged spaced apart in one embodiment.

In addition, referring to FIG. 5, the horizontal holding means 400b may have a guide vane 412 arranged in a cross shape such that a pair of plates are vertically overlapped.

6 is a view showing another embodiment of the horizontal holding means 400, the horizontal holding means is connected to the housing 100 to maintain the housing 100 in parallel with the flow direction of the stream The buoyancy means 420 may be configured.

The buoyancy means 420 is connected to the other end of the connecting member 421, one end is connected to the outlet 102 of the housing 100, the other end of the connecting member 421 to the housing 100 in the flow direction of the river It may be configured to include a buoyancy body 422 to pull upward to maintain in parallel with respect to. Here, the buoyancy body 422 may adjust the buoyancy size according to the degree of inclination of the housing 100 according to the flow rate of the river, the material may be applied to a known styrofoam.

The buoyancy means 420 is preferably installed in the housing 100 when the flow rate of the stream is lower than the predetermined flow rate.

Here, when the housing 100 is maintained horizontal through the buoyancy means 420, the hinge connection portion 310 is applied to the configuration, such as a ball bearing capable of both horizontal and longitudinal rotation with respect to the flow direction of the horizontal river Preferably, the buoyancy means 420 at this time is configured to serve as a directional to pull the housing 100 in the flow direction of the river, not to pull the housing 100 upward.

Meanwhile, referring to FIGS. 8 and 9, the hinge connector 310 may have various configurations. First, referring to FIG. 8, the hinge connection part 310 may apply a bolt 310 fastening structure coupled to the housing 100 so as to be rotatable in a horizontal direction.

Alternatively, as shown in FIG. 9, the hinge connector 310a may be applied to a ball bearing structure such that rotation in both a horizontal direction (lateral direction) and a vertical direction (vertical direction) is possible.

Hereinafter, the flow rate correction means will be described.

First, in the case of measuring the flow rate, if the position of the rotary blade 210 that measures the flow rate, that is, the housing 100 moves back and forth with respect to the flow direction, the flow velocity of the river and the movement of the rotary blade 210 by this movement As the relative velocity occurs, an error occurs in the measured fluid flow rate.

Considering that the flow velocity error occurs according to the positional movement of the housing 100, if the start position and the end position of the flow rate measurement of the housing 100 are the same, the sum of the errors due to the relative velocity generated therebetween is Is '0'. Therefore, if the flow velocity measurement start position and the end position of the housing 100 are the same, the flow velocity error does not occur.

Thus, the flow rate measuring means 200, in view of the above point, through the flow rate correction means so that the flow rate error value according to the movement of the rotary blade 210, that is, the housing 100 is '0' to reduce the flow rate error The flow rate correction means serves to correct the fluid flow rate so that the position of the housing 100 at the start of the flow rate measurement and the position of the housing 100 at the end are the same.

In one embodiment of the flow rate correction means, the flow rate correction means, the on (300) switch is installed on the support rod 300 to input the start of the flow rate measurement, and the off (Off) switch to input the end of the flow rate measurement And an on / off switch 510 which is operated by a user's operation, and an arithmetic and control unit 240 that calculates and measures the flow rate by averaging the received flow rate during the flow rate measurement time by the on / off switch 510. Can be configured.

Here, the operation control unit 240 operates and controls the average flow rate value measured between the start of the flow rate measurement by the on-switch and the end of the flow rate measurement by the off-switch, the average flow rate value is set between the specific flow rate start and end Various arithmetic control is possible, such as measuring average flow rate values measured at respective time intervals or calculating average flow rate values for the total flow rate for the elapsed time.

Meanwhile, as described above, in addition to manually setting the start and end of the flow rate measurement by the user, in another embodiment, the flow rate measurement is automatically terminated when the housing is located at the same position as the flow rate measurement point after the start of the flow rate measurement. The average flow rate can be measured.

Thus, the flow rate correction means according to another embodiment, the on-off switch installed on the support rod 300 and the user inputs the start of the flow rate measurement, and measures the position of the housing 100 and calculates the position value thereof and the operation control unit ( Position measurement module 520 to be transmitted to the 240 and the operation control unit 240 is configured to include.

Here, the operation control unit 240 may terminate the flow rate measurement when the position value of the housing 100 received from the position measurement module 520 matches the on-switch input position value. And calculating and controlling the average flow rate value measured between the flow rate measurement start and the end of the flow rate measurement by the position value of the housing 100 received from the position measurement module. Here, since the operation control of the average flow rate value of the operation control unit 240 has been described above, it will be omitted.

Here, the position measuring module 520 may be applied to a gyro sensor or a GPS sensor, and other configurations may be applied if the above object can be achieved.

Although the present invention has been described with reference to the embodiments shown in the drawings, this is merely exemplary, and it will be understood by those skilled in the art that various modifications and equivalent other embodiments are possible. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims.

100 housing 101 inlet
102: outlet 200: flow rate measuring means
210: rotation blade 211: rotation axis
220: flow rate measuring device 230: display unit
240: operation control unit 300: support rod
310: hinge connection portion 400, 400a, 400b: horizontal holding means
410,411,412: guide vane 420: buoyancy means
421: connecting member 422: buoyant body

Claims (11)

A housing in which a flow path is immersed in the stream and the fluid of the stream is introduced from the inlet of one side and the fluid flowing into the outlet of the other side is formed;
Flow rate measuring means for measuring the flow rate of the river through the rotating shaft rotatably installed in the flow path of the housing and installed in parallel with the longitudinal direction of the housing, and the rotary blade rotates without force by the flow of the river in combination with the rotating shaft and;
One end is connected to the outside of the housing, the other side comprises a support rod which is intended to be gripped by a worker located on the stream side:
The housing,
It comprises a horizontal holding means for maintaining the housing to be horizontal to the direction of movement of the river:
The horizontal holding means,
A hinge connection portion coupled to one end of the support rod and rotatable with the housing;
And a buoyancy means connected to the housing to maintain the housing in parallel with the flow direction of the stream. The method of claim 1,
The housing,
A portable flowmeter, characterized in that the inlet and the outlet are aligned in the same line. The method of claim 2,
The housing,
Portable flowmeter, characterized in that the one side and the other side is formed in an open cylindrical. The method of claim 1,
The flow rate measuring means,
Flow rate measuring device for measuring the flow rate of the river through the rotation speed of the rotary blade,
The portable flowmeter, which is connected to the flow rate measuring device and displays a flow rate value of the stream measured by the flow rate measuring device, is installed on the other side of the supporting rod so that an operator can check the flow rate of the stream. . delete delete The method of claim 1,
The hinge connection portion,
Portable flowmeter, characterized in that the installation is biased toward the inlet side of the housing. The method of claim 1,
The horizontal holding means,
It is installed on the inlet side of the inlet port, when the flow rate of the stream in the plate shape is higher than the predetermined flow rate is characterized in that it further comprises a guide vane arranged in a horizontal or vertical or cross shape with respect to the flow direction of the stream tachometer. delete The method of claim 1,
The buoyancy means,
A connecting member having one end connected to an outlet side of the housing;
And a buoyancy body coupled to the other end of the connection member to pull the housing in parallel with the flow direction of the stream. The method of claim 10,
The buoyancy means,
Portable flowmeter, characterized in that connected to the housing when the flow rate of the stream is lower than the predetermined flow rate.

Images