KR200417786Y1 - Pipe structure of flowmeter - Google Patents

Abstract

The present invention relates to the piping structure of the flow meter, and the inlet pipe to the fluid flow, the filter to filter the foreign matter mixed in the fluid introduced into the inlet pipe and the flow rate of the fluid passing through the filter In a main piping structure provided with a flow meter and a mechanical flow meter that mechanically measures the flow of fluid consisting of the outlet side pipe through which the fluid passing through the flow meter flows out, is bypassed from the inlet pipe and connected to the outlet pipe. The auxiliary pipe which is installed so as to be provided, the solenoid valve which is installed in the auxiliary pipe, a pressure sensor which is installed at the inlet side and the outlet side of the auxiliary pipe, respectively and measures the pressure at both ends, and the pressure difference measured by the pressure sensor. According to the pipe structure of the mechanical flow meter including a pressure controller for opening and closing the solenoid valve The.

Accordingly, in the pipe in which the mechanical flowmeter is installed, the idleness of the process caused by the replacement of the filter of the filter or the breakage of the flowmeter and the blockage of the unknown cause of the main pipe can be prevented in advance, thereby reducing the process loss.

Mechanical Flow Meters, Bypass, Pressure Sensors, Pressure Controllers, Solenoid Valves

Description

Pipe structure of flowmeter

1 is a cross-sectional perspective view showing a typical structure of a conventional mechanical flow meter.

2 is a piping diagram showing a pipe provided with a conventional mechanical flow meter.

3 is a piping diagram showing the piping structure of the mechanical flow meter according to the present invention.

<Description of Symbols for Main Parts of Drawing>

100: main pipe 110: mechanical flow meter

120: inlet pipe 130: filter

140 outlet pipe 150 main valve

200: auxiliary pipe 210: solenoid valve

220: pressure sensor 230: pressure controller

240: check valve

The present invention relates to a pipe structure of a flow meter, and more particularly, a flow meter pipe that can prevent process problems caused by breakage of a mechanical flow meter and blockage of a fluid, which measures the flow rate of a fluid flowing through the pipe. It's about structure.

In general, the flow meter is used to accurately measure the flow rate of the fluid flowing through the pipe, such as chemical liquids, oils, food, pharmaceuticals used in each home or industrial site. To this end, a fluid such as a liquid or a gas flows in a pipe for a predetermined time with continuity.

At this time, the flow meter is mounted at a predetermined position of the pipe so that the amount of fluid supplied through the pipe to be displayed according to the time and is used as a process management and various analysis data based on this is a very important role There are a variety of types known depending on the structure is widely used.

The flow meter uses a mechanical flow meter that measures the flow of fluid mechanically, and a parody's law of electromagnetic induction, and changes a part of the mechanical flow meter to detect the rotational speed of the magnetic field (magnet) by a separate magnetic sensor. It is divided into an electronic flowmeter based on a signal.

1 is a cross-sectional perspective view showing a typical structure of a conventional mechanical flow meter. Referring to the drawings, the mechanical flow meter 10 has an impeller 14 installed at a predetermined position inside the pipe 12, and measures the rotational speed generated as the fluid passes through the impeller 14 to a numerical value. Will be displayed. Such a mechanical flowmeter 10 is widely used for water metering and industrial precision flowmeters because of its high precision, but is suitable for measuring high-purity fluids that do not contain foreign substances. Has the disadvantage of installing.

That is, in order to measure the flow rate of the fluid containing the foreign matter suspended in the fluid, such as lint or agglomerate, the filter must be installed in front of the mechanical flow meter (10). If the filter is not installed, foreign matter mixed in the fluid may be attached to the impeller 14 of the mechanical flowmeter 10 or collide with the impeller 14, thereby affecting the rotation of the impeller 14 and thus correcting. The flow rate cannot be measured.

2 is a piping diagram showing a pipe provided with a conventional mechanical flow meter. Referring to the drawings, the inlet side pipe 20 and the outlet side pipe 40 are flanged to the front and rear around the mechanical flow meter 10 to induce the flow of fluid.

At this time, the front of the mechanical flow meter 10 is provided with a filter 30, the filter 30 is generally a filter having a fine mesh is built in the foreign material contained in the fluid flowing from the inlet side pipe 20 Will be filtered. Then, as the pure fluid filtered by the filter 30 flows into the mechanical flowmeter 10, the impeller rotates and flows to the outlet pipe 40.

However, the pipe in which the mechanical flow meter 10 is installed must periodically replace the filter of the strainer 30. That is, when the foreign matter collected in the filter of the filter 30 is not removed, the flow of the fluid flowing through the filter 30 is disturbed, so that the measurement of the flow rate is difficult, and thus the reliability of the mechanical flow meter 10 is improved. Degrades.

On the other hand, the pipe installed with the mechanical flow meter as described above is to perform the drilling work to replace the filter and eliminate the unknown blockage occurring in the pipe. Therefore, in order to puncture the pipe, the flow of fluid flowing into the pipe must be completely blocked, so that there is a problem of generating process loss as much as it is idle.

The present invention has been made to solve the above problems, and the object of the present invention is to provide a pipe structure of a flow meter that can prevent in advance the process problems caused by breakage of the flow meter and clogging of fluid in the pipe in which the mechanical flow meter is installed. .

The technical idea of the present invention for achieving the above object, the inlet side pipe in which the fluid is introduced, the filter to filter the foreign matter mixed in the fluid introduced into the inlet side pipe, and the fluid passing through the filter In the main piping structure provided with a flow meter for measuring the flow rate and a mechanical flow meter for mechanically measuring the flow of the fluid consisting of the outlet side pipe through which the fluid passing through the flow meter flows out, bypassing the inlet pipe An auxiliary pipe installed to be connected to an outlet pipe, a solenoid valve installed on the auxiliary pipe, a pressure sensor installed at an inlet side and an outlet side of the auxiliary pipe to measure pressure at both ends thereof, and through the pressure sensor. Of the mechanical flowmeter including a pressure controller for opening and closing the solenoid valve in accordance with the measured pressure difference. Achieved by the piping structure.

Here, it is preferable that the main valve which is installed before and after the filter and the flow meter is electrically connected to the pressure controller.

In addition, the check valve is preferably further provided before and after the solenoid valve installed in the auxiliary pipe.

According to the pipe structure of the mechanical flow meter as described above, by forming a branch pipe that can parallel or bypass the main pipe, it is possible to prevent damage to the filter and the mechanical flow meter due to the pressure change of the fluid flowing through the main pipe. In addition, even if the replacement of the old main pipe is carried out, it is possible to supply the fluid to the auxiliary pipe so that the process does not occur idle.

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

3 is a piping diagram showing the piping structure of the mechanical flow meter according to the present invention. Referring to the drawings, the pipe structure of the mechanical flow meter is largely divided into the main pipe 100, the filter 130 and the mechanical flow meter 110 is installed, and the auxiliary pipe 200 to bypass the main pipe 100 It is composed.

The main pipe 100 is provided with a filter 130 and a mechanical flow meter 110 sequentially, the inlet pipe 120 and the outlet pipe 140 around the filter 130 and the mechanical flow meter 110. This flange is coupled to induce the flow of the fluid.

The filter 130 is to filter the foreign matter contained in the fluid flowing into the main pipe 100, the pure fluid filtered by the filter 130 flows into the mechanical flow meter 110, mechanical flow meter 110 The fluid flows into the impeller and at this time, by measuring the rotational speed generated from the impeller to measure the amount of fluid flowing inside the main pipe (100). In addition, the fluid passing through the impeller of the mechanical flow meter 110 flows to the outlet side pipe 140.

On the other hand, the inlet side pipe 120 and the outlet side pipe 140 is connected to the auxiliary pipe 200 to bypass the flow of the fluid flowing into the main pipe 100. In particular, the solenoid valve 210 is installed in the auxiliary pipe 200 connected to the main pipe 100, and the inlet pipe 120 and the outlet pipe 140 are connected to the auxiliary pipe 200. The pressure sensor 220 is installed in each.

In addition, a pressure sensor installed at each of the inlet pipe 120 and the outlet pipe 140 is electrically connected to the pressure controller 230, and the pressure controller 230 is a solenoid of the auxiliary pipe 200. The valve 210 is electrically connected to the main valve 150 of the main pipe 100. In this case, opening and closing of the main valve 150 installed in the main pipe 100 may be performed by manual operation, not only depending on the pressure controller 230.

In addition, the main valve 150 is installed in front and rear of the filter 130 and the mechanical flow meter 110 installed in the main pipe 100 to block the flow of the fluid flowing into the filter 130 and the mechanical flow meter 110. The check valve 240 is installed in front of and behind the solenoid valve 210 installed in the auxiliary pipe 200. The check valve 240 restricts the flow of the fluid in one direction, thereby preventing the fluid flowing into the auxiliary pipe 200 from being flowed back, thereby increasing the reliability of the pressure sensor 220.

Accordingly, the pipe structure of the mechanical flow meter blocks the flow of the fluid even if the filter replacement of the filter 130 and the removal of foreign substances included in the fluid deposited in the inner diameter of the main pipe 100 and the drilling of the main pipe 100 are performed. Not only do not need to be able to monitor the presence or absence of abnormality according to the pressure change of the fluid flowing through the main pipe 100 can be prevented to stop the process in advance.

That is, while the fluid flowing into the inlet pipe 120 flows to the outlet pipe 140 through the main valve 150, the filter 130, and the mechanical flow meter 110, the pressure of the fluid is changed, causing excessive pressure. When the concentration is lowered or the pressure sensor 220 installed in the inlet side pipe 120 and the outlet side pipe 140, respectively, the difference is sent to the pressure controller 230.

Here, the change in the pressure of the fluid is caused when the pressure of the fluid flowing into the inlet pipe 120 is excessively increased or the filter of the filter 130 reaches the end of its life to the filter and the impeller of the mechanical flow meter 110. When the contained foreign matter is precipitated or caused by the pressure drop of the fluid due to the rupture of the main pipe 110.

As such, when a change in the pressure of the fluid occurs, the pressure controller 230 predicts this and opens the solenoid valve 210 installed in the auxiliary pipe 200 according to the pressure difference measured through the pressure sensor 220. The main valve 150 of the main pipe 100 is closed so that the fluid no longer flows along the main pipe 100 but bypasses the auxiliary pipe 200.

Therefore, the fluid flowing into the filter 130 and the mechanical flow meter 110 is blocked, so that the fluid can be continuously supplied to the outlet pipe 140 while the defects of the filter 130 to the mechanical flow meter 110 are repaired. This prevents process problems in advance.

In addition, the main valve 150 is not only opened and closed by the electrical signal of the pressure controller 230, but also can be opened and closed by manual operation, so that the main valve 150 is opened and closed only by the pressure controller 230. Rather, it is possible to protect the process equipment because the opening and closing of the main valve 150 can be determined according to the operator's judgment in an emergency.

In addition, the check valve 240 is installed in the auxiliary pipe 200, the fluid flowing into the auxiliary pipe 200 for maintenance of the pressure sensor 220 to the solenoid valve 210 installed in the auxiliary pipe 200. On the other hand, since the fluid blocked by the inflow into the auxiliary pipe 200 flows out through the main pipe 100, even if an abnormality occurs in any one of the main pipe 100 and the auxiliary pipe 200, the fluid is continuously blocked. The fluid can be supplied.

In the pipe structure of the mechanical flow meter as described above, the pressure sensor 220 senses the pressure change of the fluid flowing through the main pipe 100 and sends it to the pressure controller 230, and the pressure controller 230 predicts the pressure. The fluid flowing through the main pipe 100 by opening the solenoid valve 210 installed in the auxiliary pipe 200 and closing the main valve 150 of the main pipe 100 according to the pressure difference measured by the sensor 220. It is possible to prevent damage to the filter 130 and the mechanical flow meter 110 according to the pressure change of the premature, and to supply the fluid to the auxiliary pipe 200 even when the replacement of the old main pipe 100 is carried out. This prevents idleness of the process.

On the other hand, the present invention is not limited only to the above-described embodiment can be carried out by modifying and modifying within the scope not departing from the gist of the present invention, it should be seen that such modifications and variations are included in the technical idea of the present invention. do.

The pipe structure of the mechanical flowmeter according to the present invention can prevent the idleness of the process caused by replacing the filter of the filter, damage of the flowmeter, and blockage of the unknown cause of the main pipe in the pipe where the mechanical flowmeter is installed, thereby reducing the process loss. It can be effected.

Claims (3)

An inlet pipe through which the fluid is introduced, a filter for filtering foreign substances mixed in the fluid introduced into the inlet pipe, a flow meter for measuring the flow rate of the fluid passing through the filter, and a fluid flowing through the flow meter In the main piping structure is provided with a mechanical flow meter that mechanically measures the flow of the fluid consisting of the outlet side pipe, An auxiliary pipe which is bypassed from the inlet pipe and connected to the outlet pipe; A solenoid valve installed on the auxiliary pipe; A pressure sensor installed at an inlet side and an outlet side of the auxiliary pipe to measure pressure at both ends; And a pressure controller for opening and closing the solenoid valve according to the pressure difference measured by the pressure sensor. The method of claim 1, And a main valve installed before and after the filter and the flow meter, the main valve being electrically connected to the pressure controller. The method of claim 1, And a check valve provided before and after the solenoid valve installed in the auxiliary pipe.

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