KR101039354B1 - rotatable pipe connector - Google Patents

Abstract

The present invention relates to a piping connector designed to rotate a mechanism or a component installed in a pipeline for transporting a fluid such as a liquid or a gas at a free angle on a pipe section. Rotating piping connector core of the present invention is composed of a guide flange, a rotating flange and a guide bracket. The piping element is installed between the two fixed flanges to which the rotating flanges are connected. Piping elements integral with the rotatable tubing connectors at both ends thereof may be inserted between the desired piping pipelines.

The rotatable piping connector of the present invention is a piping connector for connecting the piping element in the middle of the pipe, each of which is fixed to the end of the pipe by a fixing flange and the two fixing pipes are provided with a guide flange at the end connected to the piping element; Two rotary tubes each fixed to an end of the tube on which the piping element is installed by the fixing flange and provided with a rotation flange at an end opposite to the guide flange installed at one end of the fixed tubes; It characterized in that it comprises a guide bracket (3) for supporting the rotation flange can be rotated in a state in which the guide flange and the rotation flange aligned to face each other.

Pipeline, connector, rotation, fixed tube, rotary tube, rotating means, flange

Description

Rotatable pipe connector

The present invention relates to a pipe connecting means, and more particularly, a rotatable pipe which is installed in the middle of a pipeline for transporting a fluid such as a liquid or a gas so that a pipe element installed in the pipe can be rotated freely on a pipe section. It is about a connector.

Pipelines are used as one of means for conveying fluids (hereinafter, referred to as "fluids") such as liquids and gases.

These pipelines are provided with piping elements such as sensors for measuring the flow rate or pressure of the fluid flowing in the pipeline, valves for controlling the flow of the fluid.

These piping elements need to be rotated freely on the pipe section depending on the purpose of measuring or controlling the fluid.

However, if you want to rotate by changing the angle on the pipe section with the existing pipe element, you have to remove the pipe element from the pipeline first, rotate the pipe element at an angle, and install it in the pipeline again. There is a problem that consumes too much effort. When transporting expensive fluids such as natural gas or crude oil into the pipeline, a flow meter or pressure gauge should be installed to continuously monitor the flow rate or pressure in the pipeline. The loss due to this is very large.

8 is a plan view showing a part of a conventional pipeline provided with a flow meter.

As shown, in the case of the flowmeter which is the piping element 100 installed between the pipes, the angle installed on the pipe cross section is fixed.

If a pipeline element such as a valve or elbow is additionally installed before and after the pipeline element 100 according to the terrain or situation in which the pipeline is installed, the flow velocity distribution inside the pipeline does not exhibit a symmetrical shape due to vortex or centrifugal force.

However, since the flow meter such as the piping element 100 can measure the flow rate most accurately in a very well defined symmetric flow rate distribution, the flow rate cannot be accurately measured by the asymmetric flow rate distribution in a valve or elbow installation.

Therefore, it is necessary to precisely measure the flow rate inside the pipeline while freely rotating the flow meter on the pipe section of the pipeline, but there is a disadvantage that it is difficult to detect the flow rate in response to the flow rate distribution in the pipeline by the conventional method.

The present invention has been developed to solve the above disadvantages of the prior art, to provide a rotatable piping connector to easily rotate the pipe element connected to the middle of the pipeline on the pipe cross-section.

In particular, the means for detecting the flow rate or flow rate inside the pipeline, such as a flow meter, can be installed in the middle of the pipeline so that it can be rotated freely on the pipe section. It is a primary object to provide a rotatable piping connection that makes it possible.

The rotatable piping connector of the present invention, in the piping connector for connecting the piping element in the middle of the pipe, each of which is fixed to the end of the pipe by a fixing flange and the two fixing pipes are provided with a guide flange at the end connected to the piping element; And a guide bracket which is fixed to the end of the pipe in which the piping element is installed by the fixing flange and supports the rotating flange installed in correspondence with the guide flange installed at the end of the fixing pipe so that the rotating flange can be rotated without leakage of the fluid.

The present invention allows the valve or sensor installed in the middle of the pipeline to be rotated at a desired angle on the pipe cross-section to effectively change the measurement position of the sensor so that the flow velocity or flow rate measurement in the pipeline can be precisely made. .

Hereinafter, the rotary pipe connector according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view illustrating an example of a rotary pipe connector according to the present invention, FIG. 2 is an exploded perspective view of the rotary pipe connector shown in FIG. 1, and FIG. 3 is an example of a rotary pipe connector according to the present invention. 4 is a perspective view of another example of the rotary pipe connector according to the present invention, FIG. 5 is a perspective view of another example of the rotary pipe connector according to the present invention, and FIG. 1 is an exploded perspective view of a rotary pipe connector, and FIG. 7 is a plan view of an example of a rotary pipe connector according to the present invention.

As shown, the rotatable piping connector according to the present invention includes a fixed tube 1 fixed to the pipe 200 and a rotating tube 2 rotatably connecting the piping element 100 to the fixed tube 1. It is configured by.

That is, the rotatable piping connector of the present invention, in the piping connector for connecting the piping element 100 in the middle of the pipe 200, the end is fixed to the end of the pipe by the fixing flange 11 and the pipe element is connected to each other Two fixing pipes (1) and the guide flange 12 is installed; Two rotary tubes fixed to the end of the piping element 100 by the fixing flange 21 and the rotary flange 22 is installed at the end opposite to the guide flange 12 installed at one end of the fixed tube (1) 2) and; It comprises a guide bracket (3) for supporting the rotation flange 22 can be rotated in a state in which the guide flange 12 and the rotary flange 22 are arranged to face each other.

The fixing pipe 1 is configured in a circular tubular shape, and the fixing flange 11 is formed at an end opposite to the flange formed at the end of the pipe 200 constituting the pipeline, so that the fixing pipe 11 is fixed to the pipe 200. .

That is, as shown in Figures 3, 4 and 7 after the flange formed on the pipe and the fixed flange 11 to each other facing each other by connecting the flanges with a connecting means such as a fixing bolt fixed pipe (1) pipe 200 Is connected to.

The rotary tube 2 is connected to the other end of the fixed tube 1 fixed to the pipe 200, that is, in the direction in which the piping element 100 is connected, and the piping element between the rotary tubes 2. 100 is connected.

That is, the fixed tube 1 and the rotary tube are symmetrically connected to both sides of the piping element 100.

A guide flange 12 is installed at one end of the fixed tube 1 to rotatably connect the rotary tube 2 to one end of the fixed tube 1 as described above.

The guide flange 12 is formed in a circular ring shape, a rotation flange 22 facing the guide flange 12 is provided at one end of the rotary tube (2).

That is, the rotary tube 2 is a tube rotatably installed at the end of the fixed tube 1 fixed to the pipe 200, the rotary flange 22 is rotated by the rotary tube 2 is rotated in the circumferential direction. .

A fixed flange 21 is installed at the other end of the rotary tube 2, that is, at the end connected to the piping element 100. The fixed flange 21 is fixedly connected to the pipe body in which the piping element 100 is installed, and thus, the rotary tube 2 and the piping element 100 are fixedly connected to each other so that the rotary tube 2 is rotated by the rotation of the rotary flange. When rotated, the piping element 100 also rotates to change direction.

The guide flange 12 and the rotating flange 22 are installed as a means for connecting the rotary tube 2 to be rotated with respect to the fixed tube 1 fixed as above, and these two flanges 12 and 22 are mutually It should not be separated from the contact, so that no fluid leaks between the flanges.

The two flanges 12, 22 are joined by the guide bracket 3 so that the rotation flange 22 can be rotated even when there is no contact between the two flanges 12, 22 so that there is no fluid leakage.

The guide bracket 3 is formed in a "c" shape, as shown, and an open portion is installed toward the flanges 12 and 22 so that two flanges 12 and 22 are formed in the open portion. The flanges 12 and 22 are inserted into each other and are closely connected to each other, and in this state, the rotating flange 22 can rotate in the circumferential direction.

Tightening bolts 31 are installed on the sidewalls of the guide bracket 3 so that the tightness between the guide flange 12 and the rotating flange 22 can be adjusted by tightening the tightening bolts. That is, to rotate the rotary flange 22, loosen the tightening bolt 31 to loosen the degree of close contact between the guide flange 12 and the rotary flange 22, and then rotate the rotary flange 22 to rotate the rotary flange 22 can be easily rotated.

Of course, at this time, the fluid should not leak between the guide flange 12 and the rotating flange 22, and in order to prevent the leakage of the fluid, the guide flange 12 and the rotating flange 22 on the opposite sides of the packing groove (12a) was formed, and the leakage preventing packing (5) was installed in the packing groove (12a).

In order to prevent the rotating flange 22 from rotating, the tightening bolt 31 is tightened so that the rotating flange 22 and the guide flange 12 are in close contact with each other.

The rotary tube (2) of the rotary pipe connector configured as described above was provided with a rotary drive means (4).

As described above, the rotary pipe connector of the present invention has an object to allow the pipe element 100 installed in the middle of the pipeline to rotate at a free angle on the pipe cross section. As described above, the rotary pipe 2 The purpose can be achieved by installing).

However, by providing a means for rotating the rotary tube 2 more easily, it is possible to facilitate the rotation of the piping element 100, for this purpose is provided with the rotary drive means (4).

The rotation driving means 4 may be configured by installing a rod on the outer wall of the rotary tube 2, as shown in Figs.

When the rotation driving means 4 is configured as a rod, the user may have a hassle to rotate the rotary tube 2 because the user needs to hold the rod and rotate it by the user's power.

Thus, the rotary drive means 4 is a driven gear 43 formed on the rotary flange 22, as shown in Figure 5 to 7; It may be composed of a drive gear 43 for rotating by the drive of the motor 41 to rotate the driven gear 43.

By configuring the rotary drive means 4 including the motor 41 and controlling the driving of the motor at a distance, the user can easily rotate the rotary tube 2 without directly operating the rotary drive means by force. .

Rotating pipe connector configured as described above is to connect the piping element 100 in the middle of the pipeline rotatably as described above, there may be a variety of piping element 100, but the work is done in the pipeline once constructed Considering such as the piping elements connected to the rotary pipe connector of the present invention may be means for measuring the speed or amount of fluid flowing in the back of the pipeline, such means are installed through the side wall of the pipe It may be a Pitot tube measuring the speed of the fluid flowing through the pipe or an ultrasonic flowmeter formed by installing an ultrasonic water, a transmitter through the side wall of the tube.

The pitot tube or the ultrasonic flowmeter has already been developed and used, a detailed description thereof will be omitted.

1 is a perspective view showing an example of a rotary pipe connector according to the present invention,

Figure 2 is an exploded perspective view of the rotary pipe connector shown in Figure 1,

3 is a plan view of a state of use of an example of a rotary pipe connector according to the present invention;

Figure 4 is a perspective view of the use of another example of the rotary pipe connector according to the present invention,

5 is a perspective view of another example of a rotary pipe connector according to the present invention;

Figure 6 is an exploded perspective view of the rotary pipe connector shown in Figure 5,

7 is a plan view of a state of use of an example of a rotatable piping connector according to the present invention;

8 is a plan view of a piping element connecting portion of a conventional pipeline.

Description of the Related Art [0002]

1: fixed tube

  11: fixing flange 12: guide flange 12a: packing groove

2: rotating tube

  21: fixed flange 22: rotating flange

3: guide bracket

  31: Tightening bolt

4: rotation driving means

  41: motor 42: drive gear 43: driven gear

5: packing

Claims (8)

In the pipe connector for connecting the piping element 100 in the middle of the pipe 200, Two fixing pipes 1 fixed to the ends of the pipes by the fixing flanges 11 and opposite to the pipes on which the piping elements are installed, the guide flanges 12 being installed; Two rotary tubes fixed to the end of the piping element 100 by the fixing flange 21 and the rotary flange 22 is installed at the end opposite to the guide flange 12 installed at one end of the fixed tube (1) 2) and; Rotation type, characterized in that it comprises a guide bracket (3) for supporting the rotation flange 22 can be rotated in a state in which the guide flange 12 and the rotating flange 22 are arranged to face each other Piping connections. The method of claim 1, Rotating pipe connector, characterized in that the rotary drive means (4) is further installed on the rotary tube (2). The method of claim 2, Rotating piping, characterized in that the packing groove 12a is formed on the surface of the guide flange 12 and the rotating flange 22 facing each other, the leakage preventing packing 5 is further installed in the packing groove 12a. Connector. The method of claim 3, wherein The guide bracket (3) is configured in a "c" shape so that the open portion is toward the center of the pipe (1, 2), the side wall of the guide bolt 31 is installed by the tightening bolt tightening the guide bolt Rotating pipe connector, characterized in that the degree of close contact between the flange 12 and the rotating flange 22 is adjusted. The method of claim 4, wherein The piping element (100) is a rotary pipe connector characterized in that it is installed through the side wall of the pipe to measure the speed of the fluid flowing through the pipe (Pitot tube). The method of claim 4, wherein The piping element 100 is a rotary pipe connector, characterized in that the ultrasonic flowmeter configured to penetrate the side wall of the tubular body, ultrasonic transmitter. The method according to claim 5 or 6, The rotary drive means 4 is a rotary pipe connector, characterized in that the rod is installed on the outer wall of the rotary tube (2). The method according to claim 5 or 6, The rotary drive means 4 is driven gear 43 formed on the rotary flange 22 and; Rotating pipe connector, characterized in that consisting of a drive gear 43 for rotating by the drive of the motor 41 to rotate the driven gear (43).

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