KR200300991Y1 - A flow meter - Google Patents

Abstract

The present invention relates to a flow meter to improve the flow measurement accuracy while preventing the flow of fluid, and to prevent corrosion of the flow meter body, the present invention for achieving the above object, the flow meter body 400 of the general metal material The rotating body 410 disposed inside and rotated, the front and rear fixing bodies 421 and 431 rotatably supporting the rotating body 410 by the rotating shaft 440, and the flowmeter main body 400 Supporters (straighters) 422 and 432 installed on the inner surface and spaced at regular intervals radially on the outer circumferential surfaces of the front and rear fixing bodies 421 and 431, and ends of the respective blades 411 of the rotating body 410. A magnetic inductor 450 installed at the magnetic inductor 450 to enable magnetization, and a sensor 460 installed at the flowmeter main body 400 to output a signal of the magnetic inductor 450 to a calculation means (not shown). In, the flow meter body 400 The anti-jamming tube 500 is fixed to the inner periphery of the).

Description

Flow meter {A FLOW METER}

The present invention relates to a flow meter.

In general, the flow meter is to accurately measure the amount of fluid used in each home or building, and other uses, the flow meter is mounted at a predetermined position of the pipe to display the numerical amount of the fluid passing through the water pipe.

1 and 2, a conventional flow meter measures a flow rate of a fluid flowing inside a pipe (not shown) and calculates a flow rate calculated by the calculation means (not shown) for calculating a detected signal. It includes a display means 470 to display visually, the flow meter body 400 and the rotating body 410 and the front and rear fixed body (421,431), supporters (422,432), magnetic inductor 450, sensor 460 Etc.

The flowmeter main body 400 has a connecting portion formed at both ends, the inner diameter is formed in both ends of the opening shape formed to be equal to the inner diameter of the pipe, the rotating body 410 at an angle with respect to the inflow direction of the fluid on the outer peripheral surface It is provided with a plurality of blades 411 to be inclined and disposed inside the flow meter body 400. The flow meter body 400 is formed of a metal material so as not to be deformed by external and internal pressures.

The front and rear fixed bodies 421 and 431 may be disposed inside the flowmeter main body 400 corresponding to the front and rear of the rotating body 410 to rotate the rotating body 410 via the rotating shaft 440. The supporters 422 and 432 are installed on the outer circumferential surfaces of the front and rear fixing bodies 421 and 431 at regular intervals and fixed to the inner surface of the flowmeter main body 400.

In addition, a plurality of the magnetic induction conductor 450 is installed at the end of each blade 411 of the rotating body 410, it is made of a material capable of magnetization.

The sensor 460 is installed on the flow meter body 400 corresponding to the blade 411 to sense the magnetic inductor 450 and output the detected signal to the calculation means.

However, the conventional flow meter, the magnetic inductor 450 is installed at the end of each blade 411 of the rotating body 410 in the state in which the flow meter body 400 of the flow meter is formed of a general metal material to detect the flow flow rate There is no precise flow rate detection due to the repulsive magnetic field, and because the flow meter body 400 is in contact with the fluid in the state of the general metal material, there is also an unsanitary problem due to corrosion of the flow meter body 400.

The present invention was devised to solve the above problems, and an object of the present invention is to provide a flow meter which improves flow measurement accuracy when fluid flows and prevents corrosion of the flow meter body.

The present invention for achieving the above object, the rotation body disposed inside the flowmeter body, the front and rear fixing body rotatably supporting the rotating body, and fixed to the front and rear fixing body integrally A flowmeter comprising a supporter, a magnetic inductor provided at each blade end of the rotating body, and a sensor provided in the flowmeter body and outputting a signal of the magnetic inductor to a calculation means (not shown), wherein the inner circumference of the flowmeter body It is made of a self-interference prevention tube that is fixed to the junction.

1 is a cross-sectional view schematically showing the inside of a conventional flow meter,

2 is a cross-sectional view showing a line A-A of FIG.

3 is a cross-sectional view of an embodiment of the present invention corresponding to line A-A of FIG.

4 is a cross-sectional view showing another embodiment of the present invention.

<Description of the symbols for the main parts of the drawings>

400: flow meter body 410: rotating body

421, 431: front and rear fixed body 422, 432: supporter (straighter)

450: magnetic induction 460: sensor

500: anti-jamming tube

The present invention, as shown in FIG. 1 and as shown in FIG. 3, calculates a flow rate of a fluid flowing in a pipe and calculates a signal detected by the display means and a display means for visually displaying the flow rate calculated by the calculation means ( 470).

The rotating body 410 is disposed inside the flow meter body 400 made of a general metal material, and the front and rear fixing members 421 and 431 rotatably supporting the rotating body 410 by the rotating shaft 440. And supporters 422 and 432 which are installed on the inner surface of the flowmeter main body 400 and are provided on the outer circumferential surfaces of the front and rear fixed bodies 421 and 431 at regular intervals radially, and each of the rotating bodies 410. A magnetic inductor 450 installed at the end of the blade 411 to enable magnetization, and a sensor 460 installed in the flowmeter main body 400 to output a signal of the magnetic inductor 450 to a calculation means (not shown). In the flowmeter composed of), it is made of a self-interference prevention tube 500 bonded to the inner circumference of the flowmeter body 400.

The anti-jamming tube 500 is made of synthetic resin and non-ferrous metal, and the anti-jamming tube 500 is between the ends of the front and rear fixing bodies 421 and 431 and the inside of the flow meter main body 400. Is installed on the inner circumference of the 400 is to ensure that the operation of the magnetic inductor 450 and the sensor 460 is made normally.

In addition, the self-interference prevention tube 500 is fixed to the inside of the flowmeter main body 400 so as to be integrally fixed to prevent corrosion of the flowmeter main body 400, and to prevent vortex phenomena due to corrosion in advance.

The present invention as described above is to improve the flow measurement accuracy when the fluid flow and to prevent corrosion of the flowmeter body, to install the self-interference prevention pipe 500 integrally on the inner periphery of the flowmeter body 400 will be.

The flowmeter body 400 is formed of a metal material, the anti-jamming tube 500 is formed of a non-ferrous metal or synthetic resin material to ensure that the operation of the magnetic inductor 450 and the sensor 460 is made of the flow rate measurement It is to improve the precision.

Meanwhile, as shown in FIG. 4, another embodiment of the present invention extends the outer peripheries of the supporters 422 and 432 in the longitudinal direction so as to be positioned at opposite points of the rotating body 410. The supporters 422 and 432 are formed of non-ferrous metal. Alternatively, it is formed of a synthetic resin material and installed so as to cover the installed rotating body 410 and to prevent magnetic interference without installing the self-interference prevention tube 500.

As described above, by installing a non-ferrous metal or synthetic resin anti-jamming tube on the inner circumference of the flow meter body of the general metal material to induce the normal operation of the magnetic inductor and the sensor.

In addition, by installing a self-interference prevention pipe made of synthetic resin or non-ferrous metal inside the flowmeter body, corrosion of the flowmeter body is prevented, and the corrosion of the fluid moving along the water pipe is prevented, thereby preventing the environment. In addition, as corrosion is prevented, eddy currents in the flowmeter body are also prevented.

On the other hand, by forming the outer periphery of the supporter instead of the self-interference prevention tube to cover the rotating body is a magnetic interference is not made, the normal operation is made as the magnetic interference is not made.

Claims (2)

It is integrated with the rotating body 410 disposed inside the flowmeter main body 400, the front and rear fixing bodies 421 and 431 rotatably supporting the rotating body 410, and the front and rear fixing bodies 421 and 431. The supporters 422 and 432 fixed to each other, the magnetic inductors 450 installed at the ends of the respective blades 411 of the rotating body 410, and the flow meters main body 400, and calculate the signals of the magnetic inductors 450. A flowmeter comprising a sensor (460) output to a means (not shown), characterized in that the flow rate meter comprises a self-interference prevention tube (500) bonded and fixed to the inner circumference of the flowmeter body (400). It is integrated with the rotating body 410 disposed inside the flowmeter main body 400, the front and rear fixing bodies 421 and 431 rotatably supporting the rotating body 410, and the front and rear fixing bodies 421 and 431. The supporters 422 and 432 fixed to each other, the magnetic inductors 450 installed at the ends of the respective blades 411 of the rotating body 410, and the flow meters main body 400, and calculate the signals of the magnetic inductors 450. A flowmeter comprising a sensor (460) for output to a means (not shown), characterized in that the outer periphery of the supporter (422,432) extends in the longitudinal direction so as to be located at opposite points of the rotating body (410).