KR100817310B1 - By-Pass Flowmeter - Google Patents

Abstract

 The bypass flow meter of the present invention includes a flow passage main body formed by connecting the inlet and the discharge port is connected to the inlet and discharge pipes respectively connected to the inner side and the bypass passage is formed on the outer upper portion; Bypass piping coupled to the flow meter body to form a bypass flow path along the outside of the body; A flow path switching valve installed on the fluid circulation path and selectively opening the body flow path or the bypass flow path; Characterized in that consisting of.

Accordingly, the bypass flow meter of the present invention can perform the inspection, maintenance and replacement of the flow meter without affecting the entire piping system, thereby obtaining time and economical benefits, and checking the flow meter requiring periodic inspection. This has the advantage of making it easy to prevent large accidents in advance.

Bypass, Flow Meter, Oil Tank, Bush

Description

By-Pass Flowmeter

1 is a perspective view showing a bypass flow meter according to the present invention.

Figure 2 is an exploded perspective view showing a bypass flow meter according to the present invention.

Figure 3 is a plan view showing that the flow meter main body flow path of the bypass flow meter according to the present invention.

Figure 4 is a plan view showing that the bypass flow path of the bypass flowmeter according to the present invention is opened.

5 is a cross-sectional view showing a bypass flow path of a bypass flow meter according to the present invention.

** Description of the symbols for the main parts of the drawings **

10: flow meter body 11: inlet

12: outlet 13: connector

14: fastening portion 20: bypass piping

21: opening and closing part 30: flow path switching valve

31: valve body 32: through groove

33: engaging projection 34: cover

35: pin 36: coupling portion

37: bush

The present invention relates to a bypass flowmeter, and more particularly, to a bypass flowmeter in which a bypass flow path is formed in addition to the flow measurement flow path to facilitate maintenance and replacement of the flow meter without stopping the entire system.

The flow meter is a mechanism for measuring the flow rate, and is installed in existing pipes and includes a turbine flow meter, an ultrasonic flow meter, and a volume flow meter according to the measuring principle. However, even a well-designed and good-quality flow meter will not be able to perform its original functions without intentional maintenance and maintenance, and the stability and reliability of the device will be degraded. Periodic checks and repairs are essential.

In general, the inspection and repair of flowmeters are classified into prevention and follow-up management.In the prevention, test, cleaning, zeroing and replacement of parts are carried out according to the prescribed order and method.After-sales management is possible after the flowmeter is abnormal. Work to recover to a state is performed.

For flowmeters in oil pipelines and reservoirs, the functional check of the flowmeter should be carried out once a month and the overhaul to disassemble the whole part should be carried out once a year.

However, not only when replacing the accessories of the flowmeter, but also in the case of simple checks such as cleaning and zeroing performed for preventive purposes, the flowmeter should be checked after stopping the entire flow path system, removing all the remaining fluid from the pipe through the pump. Not only is it troublesome to check and replace, but it takes a long time, and the whole system is stopped.

Accordingly, the present invention has been made to solve the above problems, the object of the present invention is that the entire piping system is not interrupted during the inspection, repair and replacement of the flow meter can reduce the economic loss and accidents caused by malfunction of the flow meter It is to provide a bypass flow meter that can be prevented in advance.

The bypass flow meter of the present invention for achieving the above object is a flow meter formed with a connecting portion for the body flow path and the bypass flow path is formed by the inlet and outlet are connected to the inlet and outlet pipes respectively connected to the inside and the fastening portion is formed on the outer upper portion main body; Bypass piping coupled to the flow meter body to form a bypass flow path along the outside of the body; A flow path switching valve installed on the fluid circulation path and selectively opening the body flow path or the bypass flow path; Characterized in that consisting of.

In addition, the flow path switching valve is characterized in that formed on both the inlet side connector and the outlet port connector.

In addition, the flow path switching valve is a valve body formed with a U-shaped or U-shaped opening in the horizontal direction on one side of the body; And a coupling part connected to the valve body and coupled to a coupling part of the flow meter body. Characterized in that consists of.

In addition, the bypass pipe is characterized in that the one side is further opened and the opening and closing portion for sealing the open portion.

The flowmeter may be a turbine flowmeter, an ultrasonic flowmeter, or a volumetric flowmeter.

Hereinafter, the bypass flow meter of the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view showing a bypass flowmeter according to the present invention, Figure 2 is an exploded perspective view showing a bypass flowmeter according to the present invention, Figure 3 is that the flow meter body passage of the bypass flowmeter according to the present invention is opened 4 is a plan view showing the bypass flow path of the bypass flowmeter according to the present invention is open, Figure 5 is a cross-sectional view showing the bypass flow path of the bypass flowmeter according to the present invention cross section of AA of FIG. Indicated.

As shown in the bypass flow meter of the present invention, the inlet port 11 and the outlet port 12 are formed in communication with the main body and the bypass 13 for the bypass flow path formed in the inner fastening portion 14 A flow meter body 10 formed; Bypass piping 20 is fastened to the flow meter main body 10 to form a bypass flow path; And a flow path switching valve 30 installed on the fluid circulation path to selectively open the body flow path or the bypass flow path.

The flow meter body 10 is provided with a flow meter as a basic body of the bypass flow meter of the present invention, the inlet 11, the outlet 12, the connector 13 and the fastening portion 14 is formed on the outer upper portion.

The inlet port 11 and the outlet port 12 are connected to the inlet port and the outlet port 12, respectively, to form a body flow path, and the connector 13 forms part of the bypass flow path.

The flow meter is a mechanism for measuring the flow rate has been proposed a variety of flow meters and the flow meter shown in Figures 1 to 5 is a turbine installed on the inner flow path of the flow meter body 10 is rotated in proportion to the flow rate and the number of revolutions of the turbine Turbine flowmeters are shown that can measure flow rates by sensing In addition to the turbine flowmeter, the ultrasonic flowmeter, which measures the flow rate using the propagation speed and the frequency change according to the flow rate, discharges a constant volume of fluid through the rotational movement of the rotor inside, and generates the rotational speed of the rotor. A volumetric flow meter may be used to sense the amount of fluid flowing through it.

The bypass pipe 20 is formed with an opening in the inner side and is connected to the inlet 11 of the flow meter body 10 to form a bypass flow path. The bypass pipe 20 may be bolted to the flow meter body 10 and may be further provided with an opening and closing portion 21 on one side to facilitate cleaning and checking.

Since the bypass pipe 20 is provided, the entire piping system can be maintained even during maintenance and inspection of the flow meter.

The flow path switching valve 30 is provided on both sides of the flow meter body 10 so as to intercept the body flow path and the bypass flow path on the fluid circulation path, and an opening is formed to selectively open the body flow path or the bypass flow path while rotating at an angle. do.

The flow path switching valve 30 includes a valve body 31 formed with a U-shaped or U-shaped opening in one side of the body in a horizontal direction; And a coupling part 36 connected to the valve body 31 and coupled to the fastening part 14 of the flow meter body 10, the present invention is not limited thereto, and the present invention is not limited thereto. Any valve capable of selectively opening the passage flow path may be used.

The valve body 31 has a through groove 32 and a locking protrusion 33 formed at an upper portion thereof, and a U-shaped or U-shaped opening portion is formed at a lower side in a horizontal direction to selectively open the main body passage or the bypass passage. 1 to 5 show a flow path switching valve 30 having a valve body 31 formed with an U-shaped opening.

The coupling part 36 is coupled to the fastening part 14 of the flow meter body 10 so that the valve body 31 is not separated.

The flow path switching valve 30 may further include a cover 34, a pin 35, and a bush 37, and the cover 34 is provided to cover the valve body 31 and has a through groove 32. ) Is formed is connected to the valve body 31 and the pin (35). The bush 37 serves to protect the valve body 31 from friction and wear.

1 to 5 shows a turbine flowmeter equipped with a turbine, but the present invention is not limited thereto, and it is natural that other types of flowmeters, such as ultrasonic flowmeters and volumetric flowmeters, may be used regardless of the type of the flowmeter. Do.

The present invention is not limited to the above-described embodiments, and the scope of application is not limited, and various modifications can be made without departing from the gist of the present invention as claimed in the claims.

As described above, the bypass flow meter of the present invention can perform the inspection, repair and replacement of the flow meter without affecting the entire piping system, thereby obtaining time and economic benefits, and the flow meter requiring periodic inspection. There is an advantage that can be easily checked to prevent large accidents in advance.

Claims (7)

A flow meter main body in which an inlet 11 and an outlet 12 connected to each of the inlet pipe and the outlet pipe 12 are connected to the inner side, and a connector 13 for the bypass channel and the bypass channel is formed, and a fastening part 14 is formed on the outer upper portion. 10; A bypass pipe 20 coupled to the flow meter main body 10 to form a bypass flow path along the outside of the main body 10, and having an opening and closing portion 21 open at one side and sealing the open portion; It is installed in the inlet 11 side connection portion and the outlet 12 side connection portion and connected to the valve body 31 and the valve body 31 formed with a U-shaped or U-shaped opening in the horizontal direction on one side of the body and the flow meter A coupling part 36 coupled to the fastening part 14 of the main body 10; a flow path switching valve 30 configured to selectively open the main body flow path or the bypass flow path; Bypass flow meter, characterized in that consisting of. delete delete delete The method of claim 1, And said flow meter is a turbine flow meter. delete The method of claim 1, And said flow meter is a volume flow meter.

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