KR101168571B1 - vortex flowmeter - Google Patents

Abstract

The present invention relates to a vortex flow meter used in a system or a facility for the purpose of precise flow rate measurement, such as general petrochemical facilities, water resource management facilities, nuclear power supply system.
The present invention is fixed to the main body and the adapter is inserted into the main body and the sensor assembly and the sensor assembly surrounding the adapter and the terminal box electrically connected to the sensor assembly and the terminal box electrically connected to the flow signal transmitter It consists of a signal line for transmitting a signal, the signal line adopts a eddy flow meter through which the conductors of the organic cable and the MI cable are connected by brazing through the MI cable between the organic cables.

Description

Vortex flowmeter

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a vortex flowmeter, and more particularly, to a vortex flowmeter used in a system or a facility for precise flow measurement, such as a general petrochemical facility, a water resource management facility, and a nuclear water supply system.

Conventionally, the flow meter used for general petrochemical facilities, water resource management facilities, main water supply pipes of nuclear power plants, or pipes that should be open at all times should have very high measurement accuracy and poor installation conditions. In case of abnormality, durability was the first priority because it was impossible to block the flow path or dismantle the pipe. Therefore, in the past, most of the durable orifice flowmeter was installed.

However, because the orifice flowmeter has to be installed separately, the installation space is large and it is largely influenced by the shape of the pipe and the flow state of the fluid. Therefore, the flow measurement accuracy is low and the pressure loss is large. There is this.

Therefore, in recent years, it is being replaced by flowmeters that have high measurement accuracy, are not affected by density, pressure, or temperature, and are suitable for dangerous or toxic fluids.

Among them, the vortex flowmeter is applied in many cases because of its excellent measurement characteristics.

Vortex flowmeter is a flowmeter that measures the flow rate of the fluid by measuring the number of vortices (vortex, vortex) generated in accordance with the flow rate. At this time, the strength of the vortex is proportional to the flow velocity, and the vortex is detected by the sensor assembly, and the measured vortex is measured in pulses and received through the flow signal transmitter to analog output 4 to 20 mA DC or pulse output. Convert and measure the flow rate.

In the case of vortex flowmeters a vortex of frequency proportional to the flow velocity occurs downstream of the triangular prism placed perpendicular to the flow of the fluid. The following relation holds between the vortex frequency f and the flow rate V.

Where f is the vortex frequency

V: average flow velocity of the fluid

d: width of vortex generator

St: Integer (Strouhal number)

1 is an installation diagram of a conventional vortex flowmeter, Figure 2 is an exploded view of a conventional vortex flowmeter.

Referring to the drawings, the sensor assembly 106 installed vertically on the main body 102 having the flange 101 on both sides is inserted into the adapter 108 from the top and connected to the flow signal transmitter 110.

The signal line 112 is connected to the flow rate signal transmitter 110 to transmit a signal. The signal line 112 is conventionally used with an organic cable.

When the eddy flowmeter is exposed to the harsh environment of the high radiation area of a nuclear power plant, the CPU-based flow signal transmitter becomes inoperable by radiation accumulation and cannot maintain its performance.

In addition, conventionally, when an error occurs in the sensor assembly of the vortex flowmeter, the sensor assembly must be replaced after the operation of the corresponding equipment is stopped and the flow of fluid in the pipeline is stopped. It is impossible to measure the flow rate until the replacement of the new flowmeter, and if the flow of fluid cannot be interrupted (operation can not be stopped), it can be severe until the shutdown period when the whole process is stopped. The inability to use flowmeters has resulted in huge losses that would stop production facilities if the flow of fluid was shut off, as well as loss of energy during reoperation and lack of close operation or management.

In the case of one vortex meter, if the vortex meter breaks, it is impossible to measure the flow rate and all equipment in the relevant system must be shut down until it is repaired. Unexpected interruptions of equipment, especially for 24-hour equipment such as power plants, are enormous.

In addition, in the eddy flow meter, it is necessary to keep the flow of the fluid as uniform as possible in order to accurately measure the flow rate. In order to keep the flow of the fluid uniform, the influence of the noise pulsation should be minimized.

The stress change produced by the vortex generator is a very small amount of electric charge, and the vibration of the pump irrespective of the vortex generation or the impact of the external pipe causes noise pulsation to generate the stress change.

Therefore, there is a problem in that a stress change generated by an external factor instead of a stress change caused by a normal flow is transmitted to the converter through a flow rate detecting part so that a measurement error occurs.

The vortex generator of the vortex flowmeter, which has been used in the past, is made of stainless steel based on the same material as the main body, and is mainly used in one-piece casting, and adapters have also been used in castings of stainless steel based.

As mentioned earlier, the stainless steel material was not shockproof, so it was not able to cope with pulsation by solids or pumps inside the pipe and the impact on the external pipe.

In addition, even if the flow signal transmitter is separately installed outside the radiation zone in order to minimize the radiation effect, the signal line of the related art connecting the flow signal transmitter and the main body of the flowmeter is an organic cable made of a soft synthetic organic compound such as rubber material for a long time. There is a problem that when the exposure to the hardened to be hardened and the outer surface is cracked and chipped, and if exposed to a temporary flame or high temperature environment of 200 ℃ or more, there is a problem that can be damaged by burning or melting.

An object of the present invention is to solve the problem of increasing the life of a signal line, removing electrical noise, preventing a decrease in productivity due to a malfunction caused by an abnormality of the vortex flowmeter, and improving the seismic resistance of the vortex flowmeter.

The present invention was devised after a long study by the inventors in order to solve the above problems, the present invention as a solution means to the main body and the adapter and the adapter to insert the sensor assembly is inserted into the main body and surrounding the adapter A terminal box fixed and electrically connected to the sensor assembly and a signal line electrically connected to the terminal box to transmit a signal to a flow signal transmitter, wherein the signal line is electrically conductive between the organic cable and the MI cable through an MI cable between the organic cables. Adopt a vortex flowmeter with sieve connected by brazing.

In addition, the present invention provides a vortex flow meter is provided with a coupling type protective tube on the outside of the organic cable and the MI cable, the organic cable and the MIM cable is fixed through the fixing plate formed through the inside of the coupling type protective tube. do.

In addition, the present invention provides a eddy flow meter is coupled to the concave fixed plate formed with a groove to the MI cable, the fixing cover formed with convex protrusions to the organic cable.

In addition, the present invention provides a eddy flow meter, characterized in that the adapter is made of a dust-proof alloy.

In addition, the present invention provides a eddy flow meter, characterized in that a plurality of the sensor assembly is installed in the main body.

According to the present invention, the durability can be enhanced by the improvement of the signal line, and there is a convenient effect of manufacturing.

According to the present invention, since the signal line between the terminal box and the flow signal transmitter is composed of an organic cable-MI cable-organic cable, it is easy to connect or detach frequently, and there is an effect of shielding electrical noise.

According to the present invention, since the flow signal transmitter is installed outside the radiation zone, there is an effect of preventing the inoperable state of the transmitter due to radiation exposure.

According to the present invention, since the terminal box is sensitive to vibration, the adapter is made of an anti-vibration alloy to damp the vibration, thereby preventing the vibration of the eddy flowmeter from being transmitted to the terminal box through the adapter.

According to the present invention, by adopting a plurality of sensor structure, even if one sensor is broken, the remaining sensor can be measured for continuous flow rate

1 is a conceptual diagram of a conventional vortex flow meter
2 is an exploded view of a conventional vortex flow meter
3 is a conceptual diagram of the eddy flowmeter of the present invention;
4 is an external view of a signal line of the present invention;
5 is a coupling diagram of the signal line of the present invention;
Figure 6a is an embodiment of the combination of the signal line of the present invention
Figure 6b is another embodiment of the coupling of the signal line of the present invention

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

3 is a conceptual diagram of a vortex flow meter of the present invention.

As shown in FIG. 3, the vortex flowmeter 10 of the present invention includes a plurality of sensor assemblies 16 mounted on the flowmeter main body 12, and each sensor assembly 16 is inserted into the adapter 18 to the terminal box 20. It is electrically connected and a signal is transmitted through the signal line 22 between the terminal box 20 and the flow signal transmitter 23.

Conventionally, the flow signal transmitter was directly connected to the adapter so that the flow signal transmitter was in the radiation zone. In the present invention, the adapter 18 and the terminal box 20 are directly connected, and the flow signal transmitter 23 is connected to the signal line 22. To be located outside the radiation zone.

The connecting terminal for transmitting the signal transmitted from the sensor assembly 16 to the flow signal transmitter 23 through the signal line 22 is in the terminal box 20, and all the components of the connecting terminal are radiated even in a high radiation area such as nuclear power. The material is applied to maintain the performance without being affected by the exposure.

In addition, the present invention has a structure in which a plurality of sensor assemblies 16 are provided in one main body 12, so that when an abnormality occurs in one sensor assembly 16, another sensor assembly 16 is used to operate. The flow measurement can be continued without interruption or interruption of the fluid flow. In FIG. 3, two sensor assemblies 10 are installed.

In addition, the adapter 18 of the present invention is made of a vibration-proof alloy so that the vibration of the flow meter body 12 is not transmitted to the terminal box 20 when the minute pulse signal of the sensor assembly 16 is transmitted to the terminal box 20. Attenuate

The anti-vibration alloy applied to the present invention has been found to have an effect when the product of tensile strength and vibration damping capacity is 1,000 or more after long research by the inventors.

Alloys with a product of tensile strength and vibration damping ability of 1,000 or more are Fe-Mn, Mg-Zr, Mn-Cu, Cu-Al-Ni, and Ni-Ti alloys, and the vibration damping function is very high compared to the existing 18-8 stainless steel. great.

In particular, in the case of Fe-Mn-based anti-vibration alloy, it is an alloy with added manganese to the cheapest iron, compared with the existing material stainless steel is very good dustproof effect and economically very efficient.

Therefore, in case of changing the Fe-Mn-based anti-vibration alloy into the vortex generator and the adapter material of the vortex flowmeter, the measurement reliability is minimized by minimizing the error of the flow measurement due to the pulsation by the solids inside the pipeline, the pulsation by the pump and the impact on the external piping. It is effective to provide an improved seismic eddy flowmeter.

In addition, the present invention has a great feature in improving the signal line 22.

The signal line 22 of the present invention is in a state where an existing organic cable and MI (Mineral Insulated) cable are connected.

4 shows the appearance of signal lines, and FIG. 5 shows a connection state between an organic cable and an MI cable.

As shown in FIG. 4, the signal line 22 of the present invention includes an MI cable 24 and a conduit 26 wrapped to serve to primarily protect the MI cable 24, and also the MI cable 24. ) And a connection part 28 for screwing to the terminal box 20, and a lug for connecting the signal line 22 to the terminal mounted inside the terminal box 20 and the terminal of the flow signal transmitter 23. An organic cable 30 fitted with a lug is attached at both ends.

In FIG. 5, the organic cable 30 is connected to the MI cable 24 and the brazing part 34 in the interior of the connection part 28, and the part is surrounded by the protective tube 35, and the inside thereof is epoxy 36. ) Is filled and cured.

The conductors of the organic cable 30 and the MI cable 24 are connected by brazing, and may be shaped as shown in FIGS. 6A and 6B to braze the connection more firmly and conveniently.

6A illustrates a coupling type protective tube 42 having a protrusion coupling type structure, and having a fixing plate 44 therein so that the organic cable 30 and the MI cable 24 are formed in the fixing plate 44. Or it can be fixed through the groove by tight coupling. In this case, the fixing plate 44 may be fixed to the coupling type protective tube 42 by brazing. The coupling type protective tube 42 may be coupled to the organic cable 30 and the MI cable 24 between the brazing material 48. When it comes in contact with each other, the brazing material 48 is melted and connected by the brazing mechanism.

The epoxy then flows between the fixing plate and the cable to completely fill the interior of the combined sheath 42.

In another embodiment of FIG. 6B, the fixed cover 52 having the convex protrusions formed on the organic cable 30 is brazed, and the MI cable 24 has the concave fixed plate 54 having the groove formed thereon, and then the fixed cover 52 and the fixed cover 52. When the organic cable 30 and the MI cable 24 contact the concave fixing plate 54 with the brazing material 48 interposed therebetween, the brazing material 48 is melted and connected by the brazing mechanism. After covering the protective tube 35 and filled with epoxy to complete.

Therefore, in the case of the MI cable signal line of the eddy flow meter of the present invention, it is possible to prevent disconnection due to repeated mounting or detachment, and since the outer shell is made of metal, it can be used in a temporary flame or a high temperature environment of 200 ° C or higher. In addition, even if they are installed in high-radiation areas such as nuclear power plants and exposed to a large amount of radiation, the metal sheath and internal insulation, alumina and copper conductors, are susceptible to radiation and can be used for over 40 years. It is possible. In addition, the existing organic cable signal line is applied to the MI cable signal line to reinforce the strong characteristics against electromagnetic shielding.

In case of replacing existing organic cable signal line with MI cable signal line, general MI cable is made of soft copper wire with single strand inside, so if the signal line is repeatedly installed or removed in the terminal box, the wire can be easily disconnected. have. To secure this, apply an organic cable as long as the signal line enters the inside of the terminal box, connect it with the copper wire of the MI cable by brazing, insert a connection part into the adapter, and apply a special splicing process that fills and hardens the inside with epoxy. Therefore, the MI cable exposed to the external environment withstands harsh environmental conditions but is not disconnected by repeated installation or detachment of signal lines.

When a detection signal is generated from any sensor, this signal is transmitted to the flow signal transmitter via the signal line.

At this time, the vibration generated in the eddy flow meter is blocked in the adapter, and if any sensor is broken, the flow rate value is measured by the flow signal transmitted from the other sensor to the flow signal transmitter.

The present invention is not limited to the embodiments described in the specification and includes all possible variations.

Explanation of the Major Codes in the Drawing
10: flowmeter 12: main body
16 sensor assembly 18 adapter
20: terminal box 22: signal line
23: flow signal transmitter 24: MI cable
26: Conduit 28: Connection
30: organic cable 34: brazing part
35: protective tube 36: epoxy
42: combined protective tube 44: fixed plate
48: brazing material 52: fixed cover
54: concave fixed plate

Claims (5)

main body;
A sensor assembly inserted above the main body;
An adapter surrounding and inserting the sensor assembly;
A terminal box fixed to the adapter and electrically connected to the sensor assembly; And
A signal line electrically connected to the terminal box and transmitting a signal to a flow signal transmitter;
The signal line is brazed between the conductors of the organic cable and MI cable through the MI cable between the organic cable,
The MI cable is a concave fixed plate is coupled to the groove, the organic cable is a eddy flow meter is coupled to the fixing cover is formed with convex projections. The method of claim 1,
Coupled protective tube is installed on the outside of the organic cable and the MI cable, the eddy flow meter that the organic cable and the MI cable is fixed through the fixing plate formed through the inside of the combined protective tube. delete The method according to claim 1 or 2,
The adapter is a eddy flow meter, characterized in that made of a dust-proof alloy. The method according to claim 1 or 2,
Vortex flowmeter, characterized in that a plurality of the sensor assembly is installed in the main body.

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