KR101358107B1 - Pipe prover for indicating position of moving sphere - Google Patents

Abstract

The present invention relates to a pipe prover for indicating the position of a sphere passing inside a pipe prover pipe. The pipe prover comprises: the sphere in which a rubber magnet formed by mixing magnetic powder with an elastomer is inserted inside the body so that uniform magnetism can be applied to the body; and sphere moving indicators. Each sphere moving indicator comprises: a transparent tube installed in the outside of the pipe prober pipe; a joint formed inside the transparent pipe; and iron powder moving along the moving direction of the sphere and inserted in the left and right sides of the pipe prover pipe. Even through the sphere moves in the pipe prover pipe without rotation, the present invention can form the magnetism on the entire surface of the pipe prover pipe because the rubber magnet formed by mixing the magnetic powder with the elastomer same as the material of the sphere is inserted inside the sphere to form the body of the sphere in which the uniform magnetism is applied. Accordingly, the present invention can accurately detect the position of the sphere. Also, the present invention can indicate the position of the sphere through iron powder moving along the moving direction of the sphere, in which the uniform magnetism is applied to the body, by installing the sphere moving indicators, in which the iron powder is inserted in the outside of the pipe prover pipe. [Reference numerals] (AA,BB) Moving direction; (CC,DD,) Current position; (EE,FF) Front view

Description

PIPE PROVER FOR INDICATING POSITION OF MOVING SPHERE}

The present invention relates to a pipe volume measuring pipe (Pipe Prover) for measuring the accuracy of the flow meter, in particular, the position of the sphere to be able to observe the position of the sphere (Sphere) moving inside the reference volume pipe in real time outside the reference volume pipe It is about the reference volumetric tube which shows the.

Flow measurement is essential for improving efficiency and operating management in commerce and production facilities for fluids and energy.

Therefore, the flowmeter used is verified the accuracy by various methods because the accuracy of the measurement is very important, one of the methods is to measure the precision of the flowmeter using a reference volume pipe.

Hereinafter, a reference volume tube according to the related art will be described with reference to FIGS. 1 to 3.

1 is a perspective view showing a conventional reference volume pipe.

Referring to FIG. 1, a conventional reference volume pipe includes a reference volume pipe pipe 100.

In addition, two detector sensors 120 are installed in the reference volume pipe pipe 100, and header portions 130 formed at diameters larger than the diameter of the reference volume pipe pipe 100 at both ends of the reference volume pipe pipe 100. Are respectively installed.

In addition, the reference volume pipe pipe 100 is provided with a four-way valve 140 is connected to the header 130 to switch the flow direction of the fluid.

In addition, the reference volume pipe is attached to a test flow meter not shown in any one of the inlet pipe 150 and the outlet pipe 160, the inlet pipe 150 serves as an outlet when the four-way valve 140 is moved. The outlet pipe 160 may serve as an inlet.

Then, the four-way valve 140 is operated to change the flow direction of the fluid. For example, the inlet pipe 150 on the side to which the flow meter under test is attached and the header 130 are connected to each other, and at the same time, the outlet The pipe 160 and the header part 130 are connected to each other.

At this time, in the reference volume pipe piping 100 and the header portion 130, the fluid before the flow direction change remains dense, and the header portion 130 has moved from the reference volume pipe piping 100 to the sphere ( 110 is arranged in advance.

And as the fluid flowing into the header portion 130 gradually increases the flow rate as the valve opening degree of the four-way valve 140 increases, and finally reaches a predetermined flow rate, the sphere having a predetermined flow rate together with the fluid 110 is moved between the two detector sensors 120 in the reference volume pipe piping 100, the measurement is made, the sphere 110 continues to reach the header portion 130.

As such, the reference volume pipe is a device that compares the volume between the flowmeter and the two detector sensors 120 using two detector sensors 120.

However, such a reference volume tube has a problem that the exact position of the sphere 110 is not known until the sphere 110 is detected by the detector sensor 120.

Furthermore, when the detector sensor 120 does not operate normally, it is more difficult to know the position of the spear 110.

In order to solve this problem, the magnetic sensor (not shown) is fixedly arranged at regular intervals on the outside of the reference volume pipe piping 100 in the conventional (application number 10-2011-0013762) and the magnetic sensor is provided by giving magnetic to the sphere 110. Through the method of detecting the position of the sphere 110 was used.

Referring to FIGS. 2 and 3, the technique of patent application No. 10-2011-0013762 is described. FIGS. 2 and 3 are cross-sectional views of a sphere to which a conventional magnetism is given.

Referring to FIGS. 2 and 3, in order to impart magnetism to the spear 110, a powder or flake magnet 111 is mixed with a mixed liquid in which an antifreeze and water are mixed at an appropriate ratio by using a manual pump inside the spear 110. The mixture was put into the sphere 110 and the sphere 110 was sized.

In this case, since the magnetic field is generated in the sphere 110, the magnetic sensor could grasp the position of the sphere 110 from the outside of the pipe with a magnetic sensor when passing through the inside of the reference volume pipe 100.

However, since the spear 110 moves in a non-rotating state when the spear 110 moves inside the reference volume pipe piping 100, as shown in FIG. 111 is precipitated to the bottom of the sphere (110) it was difficult to implement the magnetism around the entire pipe.

Therefore, the spear 110 is hardly detected by the magnetic sensor, so it is difficult to accurately detect the spear 110 position in the reference volume pipe 100.

The present invention has been made to solve the above-mentioned problems, and made a rubber magnet by mixing a magnetic powder in the same elastomer (Elastomer) as the material of the spear and then inserting a rubber magnet inside the sphere to give a uniform magnetism to the body By forming a sphere, even though the sphere moves without rotating inside the reference volume pipe, magnetism is formed all around the reference volume pipe to provide a reference volume pipe indicating the position of the sphere to accurately detect the position of the sphere. For that purpose.

In addition, the present invention by installing the spear powder indicator is inserted into the outside of the reference volume pipe pipe, the position of the spear that can display the position of the spear through the powder to move in accordance with the direction of movement of the sphere is given a uniform magnetic Its purpose is to provide a standard volumetric tube indicating.

In addition, the present invention by installing the spear position indicator on the reference volume pipe pipe covered with a heat insulating material, even if the reference volume pipe pipe is wrapped with a heat insulating material to maintain the temperature of the reference volume pipe pipe of the spear that can accurately detect the position of the spear from the outside Its purpose is to provide a reference volumetric tube for indicating the location.

The present invention for achieving the above object is a reference volume tube that displays the position of the spear passing through the inside of the reference volume pipe, the rubber magnet made by mixing the magnetic powder with the elastomer is inserted into the body is uniform magnetic body The given sphere, the transparent tube is installed outside the reference volume pipe pipe, a node is formed inside the transparent tube and the powder is moved in the left and right regions around the node in the direction of the spear movement is inserted Spear movement indicator.

In addition, the sphere includes an inner sphere, a rubber magnet and an outer sphere, a rubber magnet is located on the outer peripheral surface of the inner sphere, the outer sphere is located on the outer peripheral surface of the rubber magnet.

In addition, the spear movement indicator includes the transparent tube, the node formed inside the transparent tube, and the powder is inserted into the left and right regions of the transparent tube with respect to the node, wherein the spear movement indicator includes the reference volume tube. It is installed outside the pipe at regular intervals.

In addition, the sphere movement indicator includes the line-shaped transparent tube formed in the longitudinal direction of the reference volume pipe, the plurality of nodes formed inside the transparent tube, and the powder is inserted into the areas between the plurality of nodes.

In addition, the spear movement indicator is attached to the attachment member formed of a thin fiber is installed in the form surrounding the reference volume pipe pipe, one side of the attachment member includes a fixing member for fixing the reference volume pipe pipe and the attachment member. .

In another aspect, the present invention is a reference volume tube that displays the position of the sphere passing through the inside of the reference volume pipe, the rubber magnet made by mixing the magnetic powder with the elastomer is inserted into the body to give a uniform magnetic to the body, the A spear position indicator, wherein the powder is moved along the advancing direction of the spear, wherein the spear position indicator is an internal display in the form of a transparent tube installed outside the reference volume pipe, and connected to one end of the internal display to reach the internal display. An external injection unit for receiving powder powder from the outside, the external discharge portion and the display portion is connected to the other end of the internal display portion and discharged to the outside when the powder powder moved along the direction of travel of the spear loses magnetic.

In addition, the external discharge and display unit displays the position of the sphere, characterized in that the scale is included.

The present invention forms a rubber magnet by mixing a magnetic powder in the same elastomer (Elastomer) material and then inserting a rubber magnet inside the sphere to form a sphere with a uniform magnetic endowment, the sphere is a reference volume pipe piping Even if the movement without rotating inside the magnet around the reference volume pipe pipe is formed there is an effect that can accurately detect the position of the sphere.

In addition, the present invention by installing the spear powder indicator is inserted into the outside of the reference volume pipe pipe, there is an effect that can display the position of the spear through the 쇳 powder moving in accordance with the direction of movement of the spear given a uniform magnetic body. .

In addition, the present invention by installing the spear position indicator on the reference volume pipe pipe covered with a heat insulating material, even if the standard volume pipe pipe wrapped with a heat insulating material for maintaining the temperature of the reference volume pipe pipe has the effect of accurately detecting the position of the sphere from the outside have.

1 is a perspective view showing a conventional reference volume pipe,
2 and 3 are cross-sectional views of a sphere, which is provided with a conventional magnetism,
4 is a plan view and a front view of a spear given a uniform magnetic body according to an embodiment of the present invention,
5 is a plan view and a front view for explaining a method of detecting a moving direction of the sphere by installing the movement indicator of the sphere at a predetermined interval outside the reference volume pipe pipe according to the first embodiment of the present invention;
FIG. 6 is a front view for explaining a method of detecting a moving direction of a sphere by installing a moving indicator in a longitudinal direction outside the reference volume pipe pipe according to the second embodiment of the present invention; FIG.
7 is a view for explaining another method of installing the movement indicator in the longitudinal direction outside the reference volume pipe pipe according to the second embodiment of the present invention;
8 is a view for explaining a method of detecting a moving direction of the sphere when the reference volume pipe pipe is wrapped with a heat insulating material according to a third embodiment of the present invention,
9 is a block diagram showing a sphere position indicator according to a third embodiment of the present invention.

DETAILED DESCRIPTION Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention.

4 is a plan view and a front view of a spear having a uniform magnetic property applied to the body according to an embodiment of the present invention.

Referring to FIG. 4, the spear 210 provided with a uniform magnetic property is formed by inserting a rubber magnet 212 into the spear 210 body.

At this time, the rubber magnet 212 is an elastomer (Elastimer) of the spear material, for example, neoprene (Neoprene), nitrile (Nitrile), urethane (Urethane), Viton, Teflon (Beflon), Buna (Buna) ) Mix with magnetic powder to make hemispherical shape

Using the rubber magnet 212 manufactured as described above, a method of manufacturing a sphere 210 provided with uniform magnetism to the body,

Step 1: As shown in FIG. 4, two spherical inner spheres 211 are joined to form a spherical inner sphere 211.

Step 2: A spherical rubber magnet 212 is manufactured by joining two hemispherical rubber magnets 212 on the inner sphere 211.

Step 3: A spherical outer sphere 213 is manufactured by joining two hemispherical outer spheres 213 on the rubber magnet 212.

Through this, the spear 210 has a uniform magnetism on the body and may maintain a uniform magnetism on the body even when the sphere is moved without rotating in the reference volume pipe.

In addition, by forming the rubber magnet 212 using the same elastomer as the spear material, it is not affected by the compression and expansion of the spear 210.

FIG. 5 is a plan view and a front view for explaining a method of detecting a moving direction of a sphere by installing a movement indicator of a sphere at a predetermined interval outside the reference volume pipe pipe according to the first embodiment of the present invention.

The sphere movement indicator 220 according to the first embodiment of the present invention is installed at a predetermined interval outside the reference volume pipe 200 to display the position of the sphere 210 passing through the inside of the reference volume pipe 200. .

As shown in FIG. 5, the sphere movement indicator 220 includes a transparent tube 221, a node 222 formed at the center of the transparent tube 221 in order to separate the inside of the transparent tube 221 into two regions. The powder 223 may be inserted into the left and right regions separated by the node 222.

The method of detecting the location of the sphere 210 inside the reference volume pipe 200 through the sphere movement indicator 220 thus formed will be described.

When the spear 210 is located directly below the spear movement indicator 220 while moving inside the reference volume pipe piping 200, the strongest inside the reference volume pipe piping 200 in which some surfaces of the spear 210 touches as shown in FIG. 1. Magnetism is generated.

Therefore, as shown in FIG. 1, the crushed powder 223 in the sphere movement indicator 220 is collected at the center of the sphere 210.

Then, when the spear 210 moves from the left to the right, the powder 223 inside the spear movement indicator 200 moves from the left to the right along the movement of the spear 210 as shown in 2 and 3.

At this time, the powder 223 located on the left side inside the transparent tube 221 of the spear movement indicator 200 cannot move to the right by the node 222, and only the powder 223 located on the right side moves.

That is, since the magnet is formed around the entire reference volume pipe 200 according to the movement of the spear 210, the powder 223 installed outside the reference volume pipe 200 is also moved along the moving direction of the spear 210. It can be seen that the sphere 210 has been moved from left to right.

FIG. 6 is a front view illustrating a method of detecting a moving direction of a sphere by installing a moving indicator in a longitudinal direction outside the reference volume pipe pipe according to the second embodiment of the present invention, and FIG. 7 is a second embodiment of the present invention. It is a figure for demonstrating the other method of installing the movement indicator in the longitudinal direction outside the reference volume pipe piping which concerns on an example.

As shown in FIG. 6, the spear movement indicator 240 according to the second embodiment of the present invention is formed to be longer in length than the length in the longitudinal direction of the reference volume pipe 200, so that the outside of the reference volume pipe 200 is different. Is installed on.

In this case, the spear movement indicator 240 may be provided in plural at regular intervals as shown in FIG. 6 to visualize the moving direction of the spear 210.

As shown in FIG. 6, the spear movement indicator 240 includes a transparent tube 241 that is longer than a vertical length, a transparent tube 242 formed at regular intervals within the transparent tube 241, and a transparent tube separated by the nodes 242. 241 includes powder 243 that is inserted into each region.

Referring to the method of detecting the position and the moving direction of the sphere 210 inside the reference volume pipe 200 through the sphere movement indicator 240 formed as described above, the sphere 210 moves inside the reference volume pipe 200. When the magnetic sphere is formed around the reference volume pipe 200 by the spear 210, the powder 243 moves along the moving direction of the spear 210.

For example, when the sphere 210 moves from left to right, as shown in FIG. 6 (a), the crushed powder 243 located in the region between each node 242 moves to the right.

When the sphere 210 moves from the right side to the left side, as shown in FIG. 6B, the crushed powder 243 located in the region between the nodes 242 moves from the right side to the left side.

That is, when the knot 243 is located in the left region of each node 242 based on each node 242, it is determined that the spear 210 has moved from the left to the right, and in the right region of each node 242. If earlobe is located, it may be determined that the spear 210 is moved from right to left.

Accordingly, the position and the moving direction of the sphere 210 can be known according to the movement and the moving direction of the chopped powder 243 located in the area between the nodes 242 of the spear movement indicator 240.

In addition, when a plurality of such sphere movement indicators 240 are installed, as shown in FIG. 6, not only the movement direction of the crushed powder 243 is easy to grasp at a glance, but the movement direction of the spear 210 may be implemented in an arrow shape. .

In addition, although the spear movement indicator 240 may be directly attached to the outside of the reference volume pipe piping 200, as shown in FIG. 7A, the spear movement indicator is attached to a rectangular thin cloth or an attachment member 250 made of an equivalent material. The bundle attaching portion to which the indicator 240 is attached may be formed to enclose the reference volume pipe 200 to be attached to the outside of the reference volume pipe 200 as shown in FIG. 7B.

In this case, the fixing member 260 may be formed at the end of the bundle attachment part to be fixed to the reference volume pipe pipe 250. In this case, the fixing member 260 may be formed of an adhesive tape such as Velcro tape.

Meanwhile, in the detailed description, the spear movement indicator 240 according to the second embodiment of the present invention is attached to the attachment member 250 and then inserted into the reference volume pipe pipe 200, but according to the first embodiment of the present invention. Of course, the sphere movement indicator 220 may be attached to the reference volume pipe 200 after attaching to the attachment member 250.

8 is a view for explaining a method of detecting the moving direction of the sphere when the reference volume pipe pipe according to the third embodiment of the present invention is wrapped with a heat insulating material, Figure 9 is a sphere according to a third embodiment of the present invention A schematic diagram showing a position indicator.

When the reference volume pipe is installed on the site, the outside of the reference volume pipe pipe 200 may be covered with a heat insulating material, etc. according to the temperature condition of the fluid in the reference volume pipe pipe 200.

In this case, the spear movement indicators 220 and 240 should be installed on the heat insulating material covering the outside of the reference volume pipe 200.

However, even though the circumference of the reference volume pipe piping 200 becomes magnetic by the spear 210, the magnetism for moving the flake powder reaches the spear movement indicators 220 and 240 due to the heat insulating material covering the reference volume pipe piping 200. It's hard to do.

To solve this problem, the spear position indicator 280 according to the third embodiment of the present invention is implemented.

Referring to FIG. 9, the spear position indicator 280 according to the third embodiment of the present invention includes an internal display unit 281, an external injection unit 282, an external discharge and display unit 283.

First, the internal display portion 281 is attached to the outer lower end of the reference volume pipe 200 in the form of a transparent tube and has a connection at both ends.

The external injection portion 282 is connected to a connection portion of one end of the internal display portion 281 after the reference volume pipe pipe 200 having the internal display portion 281 is covered with a heat insulating material, and powder is injected from the external display portion 281. To reach.

In this case, in order for the powder injected through the external injection unit 282 to reach the internal display unit 281, the external injection unit 282 is preferably installed above the reference volume pipe pipe 200. 281) one end of the connection portion is formed along the circumference of the reference volume pipe 200 as shown in FIG. 9 and is formed to penetrate the insulation.

 The external discharge and display unit 283 is connected to the connection part of the other end of the internal display unit 281 after the reference volume pipe pipe 200 having the internal display unit 281 is covered with a heat insulating material, and moved according to the movement of the sphere 210. Drain the powder to the outside.

In addition, the number of movements of the spear 210 can be determined based on the amount of powder that is discharged with the scale displayed on the external discharge and display unit 283.

The external discharge and display unit 283 is preferably installed in the downward direction of the reference volume pipe pipe 200 so that the dust can move down.

The spear position indicator 280 thus formed is provided in plural in the reference volume pipe 200 as shown in FIG. 8. In this case, the plurality of sphere position indicators 280 may be installed in a line form or may be installed at regular intervals.

Also, in order to determine that the spear 210 moves from left to right, as shown in FIG. 8A, the spear position indicator 280 is installed in the forward direction, and the spear 210 moves from right to left. In order to make the determination, as shown in FIG. 8B, the spear position indicator 280 may be installed in the reverse direction.

Hereinafter, a method of determining the position of the spear 210 through the spear position indicator 280 according to the third embodiment of the present invention will be described. The powder is connected to the external injection portion 282 through the internal display portion 281. Fill your earlobe to move on.

Then, when the spear 210 moves inside the reference volume pipe 200, the magnetic body is formed in the entire circumference of the internal display unit 281, and the dust is externally discharged and the display unit 283 according to the moving direction of the spear 210. It will move to the place.

Then, when the spear 210 is out of the position of the external discharge and display unit 283, the magnetic disappears on the internal display unit 281, and the crushed powder moved to the external discharge and display unit 283 is lowered to the external discharge and display unit 283. do.

At this time, the number of movements of the spear can be known through the amount of powder that has fallen to the external discharge and the display unit 283.

By doing so, not only the position of the sphere 210 passing through the inside of the reference volume pipe piping 200 can be accurately known, but also the moving direction of the sphere 210 can be determined.

In the above description, the present invention has been described with reference to preferred embodiments, but the present invention is not necessarily limited thereto, and a person having ordinary skill in the art to which the present invention pertains does not depart from the technical spirit of the present invention. It will be readily appreciated that various substitutions, modifications and variations can be made.

100: standard volume pipe tubing 110: spear
111: powder 120: detector sensor
130: header portion 140: four-way valve
150: inlet piping 160: outlet piping
200: standard volume pipe tubing 210: spear
211: internal sphere 212: rubber magnet
213: External sphere 220, 240: Spear movement indicator
221 and 241 transparent tubes 222 and 242 nodes
223, 243: powder of wheat flour 250: attachment member
260: fixing member 270: heat insulating material
280: sphere position indicator 281: internal display portion
282: external injection unit 283: external discharge and display unit

Claims (7)

In the reference volume pipe which indicates the position of the sphere passing through the inside of the reference volume pipe,
A rubber magnet made by mixing magnetic powder with an elastomer is inserted into the body to give a uniform magnetic property to the body;
A transparent tube is installed outside the reference volume pipe, and a sphere is formed inside the transparent tube and includes a spear movement indicator, in which a pinch moving along the direction of travel of the sphere is inserted in the left and right regions around the node. A reference volumetric tube indicating the location of the sphere. The method of claim 1, wherein the spear,
Including inner spheres, rubber magnets and outer spheres,
Rubber volume is located on the outer circumferential surface of the inner sphere, the reference volume tube indicating the position of the sphere, characterized in that the outer sphere is located on the outer peripheral surface of the rubber magnet. delete The method of claim 1, wherein the sphere movement indicator,
The transparent tube of a line shape formed in the longitudinal direction of the reference volume pipe;
A plurality of nodes formed in the transparent tube;
And a pincer powder inserted into an area between the plurality of nodes, wherein the reference volume tube indicates the position of the sphere. The method of claim 1, wherein the sphere movement indicator,
Attached to the attachment member formed of a thin fiber is installed in the form surrounding the reference volume pipe,
One side of the attachment member is a reference volume pipe for displaying the position of the sphere, characterized in that the reference volume pipe pipe and a fixing member for fixing the attachment member. In the reference volume pipe which indicates the position of the sphere passing through the inside of the reference volume pipe,
A rubber magnet made by mixing magnetic powder with an elastomer is inserted into the body to give a uniform magnetic property to the body;
Spear position indicator that the powder is moved along the advancing direction of the spear,
The spear position indicator may be an internal display unit in the form of a transparent tube installed outside the reference volume pipe;
An external injection unit connected to one end of the internal display unit and receiving powder from the outside to reach the internal display unit;
And an external discharge and display unit connected to the other end of the internal display unit to be discharged to the outside when the flake powder moving in the direction of travel of the sphere loses its magnetism. The method of claim 6, wherein the external discharge and display unit,
A reference volume tube indicating the location of the sphere, which includes a scale.

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