KR100608158B1 - confirming equipment for fluid flow of pipe line - Google Patents

Abstract

The present invention relates to a fluid flow confirmation device of the pipeline, the purpose of which is divided into the impeller and the generator, and the impeller is rotated as the impeller is rotated in the divided section and the generator is driven to drive the generator to generate a predetermined voltage By turning on the lamp with the electric current, the sealing of the inside and outside of the pipe joint body is ensured, and the flow of the fluid in the pipe can be checked as well as the flow rate can be measured.

The present invention is a pipe joint body having an impeller installation space between the fluid inlet and the fluid outlet; An impeller having a plurality of wings on the shaft to rotate due to the fluid flow in the pipe in the pipe body; A permanent magnet mounted to the shaft of the impeller and an induction coil mounted outside thereof to generate a current; And a lamp connected in circuit with the induction coil of the generator so as to be turned on when the fluid inside the pipe joint body flows, the fluid flow checking apparatus of a pipe line provided with a disc in each of the separated portions of the shaft and the disc. A pair of permanent magnets are provided to correspond to each other so that the generator is interlocked and rotated as the impeller rotates. The impeller installation space is formed in two stages so that the fluid inlet and the fluid outlet are partitioned, and the impeller on the fluid inlet side. The installation space is formed with a plurality of fluid guide holes for guiding fluid in the circumferential direction of the end of the impeller, and an impeller installation space at the fluid outlet side is provided with a pocket case having a discharge hole having a size that does not interfere with the fluid flow. It is done.

Body, Impeller, Generator, Lamp

Description

Confirming equipment for fluid flow of pipe line

1 is a cross-sectional view showing a fluid flow confirmation device of the pipeline according to the present invention,

2 is a front view of a state in which a part is cut in the present invention,

3 is a detailed view showing the main portion of the present invention,

4 is a cross-sectional view showing another embodiment of the present invention;

5 and 6 are cross-sectional views showing yet another embodiment of the present invention.

<Explanation of symbols for main parts of drawing>

10,10a: pipe joint body 11: flange 12,12a: impeller installation space

14,14a web 20,20a impeller

21, 21a, 21b: shaft 24, 24a: generator 25: permanent magnet

26: induction coil 30: lamp 32: cover

34: monitoring window 40: encoder 41: microcomputer

42: display portion 43: pocket case 44: fluid inlet hole

45: discharge hole

The present invention relates to a fluid flow confirmation device of the pipeline, and more particularly, the generator is driven with an impeller that rotates as the fluid flows in the pipeline to generate a predetermined voltage and the generated current is applied to the lamp to be lit in the pipeline The present invention relates to a fluid flow checking device of a conduit capable of measuring a flow rate as well as measuring a flow rate in a fluid.

In general, the pipeline is installed with a cooling water supply line or an oil supply line to various industrial sites or industrial facilities of factories. These pipes are connected to each other two or more pipes from the tank to the destination mechanical equipment through a pipe joint, and the pipes of the pipe line is provided with various valves or instruments for controlling the flow of fluid.

Since the pipes of the pipe line are all made of opaque metal pipes, that is, steel pipes or cast iron pipes, which cannot see inside, it is impossible to confirm whether the valves forming the pipe line are locked or the strainer is blocked by foreign substances. However, there was a problem in that only the opening and closing of the valve could not determine whether fluid was flowing in the pipeline.

In addition, there is a problem in that it is not possible to measure how much flow rate flows only when each flow meter is installed in the pipeline.

An object of the present invention has been researched and developed in order to solve the conventional problems as described above, the impeller and the generator is divided into a partition and the generator is provided to be interlocked rotation as the impeller is rotated in the divided section and the generator is By turning on the lamp with the electric current generated by the predetermined voltage, it ensures the sealing inside and outside the pipe joint body, and at the same time, it is possible to check the flow of the fluid in the pipe and also to check the fluid flow of the pipe to measure the flow rate. To provide.

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The present invention to achieve the above object is a pipe joint body having an impeller installation space between the fluid inlet and the fluid outlet; An impeller having a plurality of wings on the shaft to rotate due to the fluid flow in the pipe in the pipe body; A permanent magnet mounted to the shaft of the impeller and an induction coil mounted outside thereof to generate a current; And a lamp connected to the induction coil of the generator so as to be turned on when the fluid inside the pipe joint flows, wherein the shaft is cut along the web and is divided into an impeller and a generator. In the fluid flow confirmation device, a pair of permanent magnets are provided on separate portions of the shaft, and a pair of permanent magnets are installed to correspond to each other so that the generator rotates as the impeller rotates. The pocket case is formed in two stages, and the pocket case has a plurality of fluid guide holes for guiding fluid in the circumferential direction of the impeller end in the impeller installation space at the fluid inlet side and the fluid in the impeller installation space at the fluid outlet side. It is characterized in that the discharge hole of the size that does not interfere with the flow is formed.

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EMBODIMENT OF THE INVENTION Hereinafter, this invention is demonstrated in detail based on an accompanying drawing.

1 is a cross-sectional view showing a fluid flow confirmation device of the pipeline according to the present invention, Figure 2 is a front view of a state in which part of the present invention cut, Figure 3 is a detailed view showing the main portion of the present invention.

As shown in the figure, the pipe fitting body 10 has flanges 11 formed at both ends so as to connect neighboring pipes to each other, and an impeller mounting hole 12 for easy installation of the impeller 20 in the middle portion thereof. ) And seating installation space 13 is formed. The front end of the installation hole 13 is provided with a web 14 for rotatably supporting the shaft 21 of the impeller 20 while blocking the front end thereof.

The impeller 20 has a plurality of wings 22 radially formed on the shaft 21, which impeller 20 is installed in the seating installation space 13 through the impeller mounting hole 12 of the pipe fitting body 10. Installed to seat. In addition, one end portion of the shaft 21 of the impeller 20 is installed to be rotated on the web 14, and thus the impeller 20 is rotated due to the fluid flow in the pipe joint body 10.

The shaft 21 of the impeller 20 is provided with a permanent magnet 25 is mounted on the outside of the generator 24 is provided with an induction coil 26, the generator 24 is a permanent magnet together with the impeller 20 As the 25 is rotated, current is generated in the induction coil 26.

Lamp 30 is connected to the induction coil 26 of the generator 24 and can be confirmed that the fluid flows inside the tube joint body 10 by receiving the current generated from the generator 24. . The lamp 30 is preferably provided with a light emitting diode (LED) of low power and high brightness.

The generator 24 and the lamp 30 outside the web 14 are covered with a cover 32, in particular the lamp 30 portion should be provided with a transparent cover. The reason for this is to be able to see through the eyes from a distance.

And at the upper position of the impeller 20 of the pipe joint body 10 is provided with a monitoring window 34 to look into the impeller 20.

The fluid flow confirmation device of the conduit according to the present invention configured as described above is impeller 20 is rotated when the fluid flows into the interior of the pipe joint body 10 connected between the pipes (not shown) and thus the impeller 20 As it rotates, the permanent magnet 25 on one side of the shaft 21 is also rotated.

When the permanent magnet 25 is rotated as described above, a current is induced in the induction coil 26 outside thereof, and the induced current is applied to the lamp 30 to be turned on. Therefore, it can be seen that the fluid flows in the pipe joint body 10 even in the distance.

4 is a view showing another embodiment of the fluid flow confirmation device of the present invention, the number of revolutions of the rotation of the shaft 21 of the impeller 20 is measured by the encoder 40 and counted from the encoder 40 The configuration is the same as that of the present invention except that a flow rate measuring means comprising a display unit 42 which displays the flow rate after the microcomputer 41 receives the counting signal of the rotational speed of the shaft 21 is calculated.

In addition, the flow rate measuring means counts the number of voltage peaks generated each time the permanent magnet 25 of the shaft 21 constituting the generator 24 is rotated, and the microcomputer 41 receives the signal of the counted voltage peaks. The flow rate may be calculated and displayed on the display unit 42.

According to another embodiment as described above it is possible to measure the flow rate while checking the flow of the fluid in the pipe joint body (10).

5 and 6 is a view of another embodiment showing a fluid flow confirmation device of the pipeline according to the present invention.

The impeller 20a and the generator 24a are separately configured so that the inlet of the impeller installation space 12a of the pipe fitting body 10a is completely closed by the web 14, and the impeller 20a has a pocket case 40. It is installed in the impeller installation space 12a together with the pocket case 40 so as to rotate freely in the generator, and the generator 24a is provided in the outer web 14 corresponding to the impeller 20a in the impeller installation space 12a. . Since the shafts of the impeller 20a and the generator 24a do not penetrate through the web 14, the inner and outer sealing of the pipe joint body 10a is easily and reliably achieved.

The pocket case 43 is formed in two stages so that the fluid inlet i and the fluid outlet o are separated, and the circumferential direction of the end of the impeller 20a in the impeller installation space 12a on the fluid inlet i side. A plurality of fluid guide holes 44 for inducing fluids are formed, and a discharge hole 45 having a size that does not interfere with the fluid flow is formed in the impeller installation space 12a on the fluid outlet o side.

The impeller 20a and the generator 24a are provided so that the generator 24a is interlocked as the impeller 20a is rotated, and the impeller 20a has a disc on the other side of the shaft 21a having the wings 22. 23 is formed and a permanent magnet 27 is provided on the disc 23 to be in contact with the web 14a. The generator 24a is concentric with the disc 23 on the side of the impeller 20a. The disc 28 is formed on one side of the) and the permanent magnet 29 is arranged differently to the pole 28 so as to generate a repulsive force to attract each other corresponding to the permanent magnet 27.

According to the configuration of the other embodiment configured as described above, the fluid flows into the fluid inlet (i) of the pipe fitting body (10a) through the fluid guide hole 44 of the pocket case 43 and becomes a vortex and thus the pocket case 40 Then, the blades 22 of the impeller 20a installed in the shaft are pushed and rotated, and the disc 23 integrated through the impeller 20a and the shaft 21a is also rotated.

As such, when the impeller 20a is rotated, the generator 28a-side disk 28 installed in concentric with the shaft 21a of the impeller 20a on the outer side of the web 14a is rotated. The reason why the shaft 21b of the generator 24a is rotated is that the permanent magnet 27 of the disc 23 of the impeller 20a and the permanent magnet 29 of the disc 28 of the generator 24a attract each other. This is because it is installed.

When the shaft 21b of the generator 24a is rotated, as the permanent magnet 25 is rotated, current is induced to the induction coil 26, and the induced current is applied to the lamp 30 to be turned on. Therefore, it can be seen that the fluid flows in the pipe joint body 10a even from a distance.

As described in detail above, the fluid flow checking apparatus of the pipeline according to the present invention is provided so that the impeller and the generator are partitioned and the generator is interlocked and rotated as the impeller is rotated in the partitioned portion, and the generator is driven to a predetermined voltage. It is a useful invention that can ensure the sealing of the inside and outside of the pipe joint body by turning on the current lamp generated by the power, and at the same time can check the flow of the fluid in the pipe line as well as measure the flow rate.

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Claims (7)

delete delete delete delete delete delete A pipe joint body having an impeller installation tube between the fluid inlet and the fluid outlet; An impeller having a plurality of wings on the shaft to rotate due to the fluid flow in the pipe in the pipe body; A permanent magnet mounted to the shaft of the impeller and an induction coil mounted outside thereof to generate a current; And a lamp connected in circuit with the induction coil of the generator so as to be turned on when the fluid inside the pipe joint flows. The shaft of the impeller is cut along the web and the shaft is divided into the impeller and the generator. In the fluid flow checking device of Discs are provided on separate portions of the shaft, and the discs are provided with a pair of permanent magnets corresponding to each other so that the generator rotates as the impeller is rotated. The impeller installation space includes a fluid inlet and a fluid outlet. It is formed in two stages so that the compartment is separated, and the impeller installation space at the fluid inlet side is formed with a plurality of fluid guide holes for guiding fluid in the circumferential direction of the impeller end, and the impeller installation space at the fluid outlet side does not interfere with the fluid flow. A device for checking the flow of fluid in a conduit, characterized in that a pocket case having a sized discharge hole is added.

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