KR100428897B1 - Ultrasonic flow meter with separated of amplifier housing - Google Patents

Abstract

An object of the present invention is to provide an improved ultrasonic flow rate measuring apparatus for quickly and effectively replacing and maintaining a device in a pipe measuring fluid flow rate using an ultrasonic sensor when a failure or other problem occurs. There is this.

According to the present invention, the sensor holder 30 is fastened to the nozzle tube 3 formed on the side of the pipe 1, the ball valve 40 is fastened to the rear end of the sensor holder 30, the ball valve 40 Guide pipe 50 is fastened to the rear end of the, and the ultrasonic sensor 20 is mounted on the front end and includes an ultrasonic sensor housing 60 penetrating the sensor holder 30, the ball valve 40 and the guide pipe 50. In the ultrasonic flow rate measuring mechanism, which is fixed to the rear end of the ultrasonic sensor housing 60, the amplifier 19 is located inside, the amplifier is formed to be connected to the ultrasonic sensor 20 and the internal space, the amplifier formed to be divided into a plurality There is provided an ultrasonic flow measurement instrument comprising a house 70.

Description

Ultrasonic flow meter with separated of amplifier housing

The present invention relates to an ultrasonic flow rate measuring device for measuring the fluid flow rate in the pipe, in particular, the ultrasonic wave measuring device is an ultrasonic wave formed in a separate type so that the amplifier can be easily and quickly performed when a failure occurs and needs to be repaired and replaced It relates to a flow measuring instrument.

1 is a conceptual diagram of a flow measurement mechanism having an amplifier externally according to the prior art.

The flow measuring instrument 10 shown in FIG. 1 is a CEM68 model of the US Panametrics. On the other hand, the pipe (1) to measure the flow rate is a nozzle tube (3) protrudes, the nozzle tube (3) is provided with a sensor holder (7) for installing the ultrasonic sensor (5), amplifier (9) ) Is a structure that is installed as an external device.

However, in this flow rate measuring device 10, the amplifier 9 is mounted separately, so that a space where the amplifier 9 can be installed near the pipe 1 to be measured is required, and the ultrasonic sensor 5 The cable (8) connecting the amplifier (9) is exposed to the outside and has a disadvantage that a separate insulation process should be performed.

According to the information introduced in the "Korean Utility Model Registration Application No. 98-020492 (Name of the Invention: Ultrasonic Flow Measurement Mechanism Removable Online)" in order to supplement the disadvantage of the flow measuring device 10, A nozzle tube protrudes through the pipe, and an ultrasonic sensor penetrates the nozzle pipe to measure the flow rate of the liquid flowing inside the pipe, and an amplifier collection housing the amplifier is integrally provided.

However, in the case of "Online detachable ultrasonic flow measurement mechanism", when a failure or replacement factor occurs in the amplifier housed inside the amplifier house, the operator disassembles the bolt and nut fastened to the flange of the guide pipe and the flange of the amplifier house. After the separation of the amplifier house, the amplifier is withdrawn from the amplifier house by replacing or maintenance, there is a disadvantage that takes a lot of time.

The present invention is provided to solve the problems of the prior art as described above, and provides an ultrasonic flow rate measuring instrument having a separate amplifier collection formed so that the replacement and maintenance of the amplifier, which is a component of the ultrasonic flow rate measuring mechanism, can be made quickly. Its purpose is to.

1 is a conceptual diagram of a flow measuring instrument having an amplifier externally according to the prior art,

2 is a perspective view showing an ultrasonic flow rate measuring instrument having a separate amplifier collection according to an embodiment of the present invention,

3 is a cross-sectional view of the ultrasonic flow measurement mechanism shown in FIG.

FIG. 4 is a detailed view illustrating an amplifier collection of the ultrasonic flow rate measuring device illustrated in FIG. 3.

♠ Explanation of symbols on the main parts of the drawing ♠

1: piping 3: nozzle tube

5, 20: ultrasonic sensor 7, 30: sensor holder

8, 18a, 18b: cable 9, 19: amplifier

40: ball valve 50: guide piping

60: ultrasonic sensor housing 70: amplifier

71: first stage 73: second stage

75: third stage 76: through hole

According to the present invention for achieving the object as described above, the sensor holder fastened to the nozzle tube formed in the side of the pipe, the ball valve fastened to the rear end of the sensor holder, the guide pipe fastened to the rear end of the ball valve And an ultrasonic sensor housing mounted at an end of the ultrasonic sensor housing through the sensor holder, the ball valve and the guide pipe, wherein the ultrasonic sensor housing is fixed to a rear end of the ultrasonic sensor housing and an amplifier is positioned therein. And an ultrasonic flow rate measuring mechanism including an amplifier housing formed to be connected to the ultrasonic sensor and the inner space and divided into a plurality.

In addition, according to the present invention, the amplifier collection is divided into three stages, wherein the first end of the first stage of the three stages is fixed to the ultrasonic sensor housing, the threaded portion is formed around the rear end, the circumference of the front end of the third stage The threaded portion is formed, and the threaded portion that is screwed into the first end and the second end threaded portion is processed in the front and rear ends of the second end, and the through hole is formed in the middle of the rear end of the third end.

In the following, with reference to the accompanying drawings a preferred embodiment of the ultrasonic flow rate measuring instrument having a separate amplifier collection according to the present invention will be described in detail.

2 is a perspective view showing the ultrasonic flow measurement mechanism with a separate amplifier collection according to an embodiment of the present invention, Figure 3 is a cross-sectional view of the ultrasonic flow measurement mechanism shown in Figure 2, Figure 4 is a It is a detailed view showing in detail the collection of the amplifier of the ultrasonic flow measurement mechanism shown.

2 and 3, a nozzle tube 3 protrudes from one side of the pipe 1 (shown in FIG. 1), and a cylindrical sensor holder 30 is inserted into the nozzle tube 3. And, the flange of the sensor holder 30 to the flange of the nozzle tube (3) is fastened by bolts and nuts to enable sealing. On the other hand, a double fastening hole is formed in the flange of the sensor holder 30, the bolt is inserted into the outer fastening hole and fastened to the flange of the nozzle tube (3).

And, the rear end of the cylindrical sensor holder 30 is connected to the ball valve 40 and the guide pipe 50, the fastening hole of the front flange of the ball valve 40 coincides with the inner fastening hole of the flange of the sensor holder 30 The bolt is inserted into the fastening hole and fastened by the nut. The front flange of the guide pipe 50 is fastened by the bolt and the nut to the rear flange of the ball valve 40.

On the other hand, the ultrasonic sensor housing 60 has a relatively longer pipe than the guide pipe 50, the ball valve 40 and the sensor holder 30, the flange is fixed to the rear end of the long pipe, the ultrasonic sensor housing ( The ultrasonic sensor 20 is mounted at the tip of the pipe 60.

Therefore, when the ultrasonic sensor housing 60 penetrates the inside of the guide pipe 50, the ball valve 40, and the sensor holder 30, the ultrasonic sensor 20 is positioned at the tip of the sensor holder 30. The flange of the ultrasonic sensor housing 60 is in contact with the flange of the guide pipe (50). Then, the flange of the ultrasonic sensor housing 60 and the flange of the guide pipe 50 are fastened with bolts and nuts.

On the other hand, the rear of the flange of the ultrasonic sensor housing 60, the amplifier housing 70 for receiving the amplifier 19 is fixed by welding.

As shown in FIG. 4, the amplifier collection 70 is a sealed cylinder in which only a part of the front end and the rear end are opened, and is divided into three stages in the longitudinal direction of the amplifier collection 70. Of the three stages, the front end of the first end 71 is opened and welded to the flange of the ultrasonic sensor housing 60, and a threaded screw portion 71a is formed outside the rear end of the first end 71. In addition, the second end 73 is formed in a cylindrical shape with a female threaded portion 73a which is female-threaded so as to be screwed into the threaded portion 71a of the first end 71 in the inner end of the second end 73. A threaded portion 73b is formed around the rear end of the second stage 73. In addition, the distal end portion of the third end 75 has a female screw portion 75a formed therein so as to be inserted into the rear end portion of the second end 73 and screwed therein, and a through hole in the center of the rear end of the third end 75. 76 is formed.

Therefore, when the opening of the first end 71 of the amplifier assembly 70 is welded and fixed to the flange of the ultrasonic sensor housing 60 and the second stage 73 and the third stage 75 are screwed together, An internal space is connected from the 70 to the ultrasonic sensor 20.

The amplifier 19 is located in the internal space of the amplifier housing 70 formed by the screwing of the third stage 75. The amplifier 19 and the ultrasonic sensor 20 are connected by a cable 18a, and the cable 18b connected to the rear end of the amplifier 19 is formed at the third end 75 of the amplifier housing 70. It extends outward through the through hole 76.

An operation relationship for separating the amplifier in the ultrasonic flow rate measuring instrument 100 having a separate amplifier collection configured as described above will be described in detail.

As described above, the flow rate of the liquid flowing along the pipe (1) is installed so that it can be measured by the ultrasonic sensor (20).

Then, while measuring the flow rate, when an abnormal occurrence is detected in the amplifier 19 or a periodic inspection is performed, the operator processes the second and third stages 73 and 75 processed in the three-stage amplifier housing 70. The female screw portions 73a and 75a and the screw portions 71a and 71b of the first and second ends 71 and 73 are rotated to be disassembled. Then, the amplifier 19 accommodated in the separated amplifier housing 70 is exposed. In addition, the ultrasonic sensor 20 may be observed through the internal space of the ultrasonic sensor housing 60.

As described in detail above, the ultrasonic flow rate measuring instrument with a separate amplifier assembly of the present invention is an operation of disassembling the bolt and nut to separate the flange of the guide pipe and the flange of the ultrasonic sensor housing when the amplifier abnormality occurs It consists of three stages without the need to rotate and separate the screwed fasteners, it is easy to check the amplifier, there is an advantage that can also observe the ultrasonic sensor.

Although the technical idea of the ultrasonic flow rate measuring instrument with a separate amplifier collection of the present invention has been described with the accompanying drawings, this is for illustrative purposes only and not for limiting the present invention. In addition, it is obvious that any person skilled in the art can make various modifications and imitations without departing from the scope of the technical idea of the present invention.

Claims (2)

A sensor holder fastened to a nozzle tube formed at a side of a pipe, a ball valve fastened to a rear end of the sensor holder, a guide pipe fastened to a rear end of the ball valve, and an ultrasonic sensor at a front end of the sensor holder and the An ultrasonic flow rate measuring mechanism comprising a ball valve and an ultrasonic sensor housing penetrating the guide pipe, An ultrasonic flow rate measuring mechanism, characterized in that it is fixed to the rear end of the ultrasonic sensor housing, the amplifier is located therein is formed so that the ultrasonic sensor and the internal space is connected and is divided into a plurality of amplifier collection. The method of claim 1, The amplifier housing is divided into three stages, wherein the first end of the three stages is fixed to the ultrasonic sensor housing, and a thread is formed around the rear end, and a thread is formed around the front end of the third stage. Ultrasonic flow rate measuring mechanism, characterized in that the screw portion to be screwed with the first end and the second end of the screw stage is machined in the front and rear ends of the second stage, the through-hole is formed in the middle of the rear end of the third stage.