KR200407139Y1 - The flowing indicator of fluid - Google Patents

Abstract

The present invention relates to a device that can check the flow of fluid, the main purpose of the invention is to make it easy and accurate to check the flow state of the fluid by visually confirming the impeller rotating to the tubular viewing window through which the fluid flows.

On the other hand, the impeller provided on the tubular line is designed to be rotatable, and its structure is simple and easy to manufacture, and the heat treatment is applied to the glass used as the sight glass to ensure semi-permanent transparency and external impact. Its purpose is to be able to withstand enough.

Characteristic configuration of the present invention for achieving the above object is the inlet and outlet which the fluid is introduced or discharged on both sides is formed with a tube body formed through the viewing window so that the fluid is passed through the inside part of the tube, and visually confirmed through the viewing window And an impeller installed inside the tube body to rotate by the fluid flowing in the tube body, and a fluid guide plate provided at the inner inlet side of the tube body such that the fluid flowing through the inlet is guided to one wing of the impeller. It is done by.

Fluid, flow, check, sight glass, impeller

Description

Fluid Flow Checking Device {THE FLOWING INDICATOR OF FLUID}

1 is a perspective view illustrating an apparatus for checking the flow of fluid of the present invention

Figure 2 is a front view illustrating a fluid flow check device of the present invention

Figure 3 is a side view illustrating a flow check device of the fluid of the present invention

Figure 4 is a cross-sectional view illustrating an apparatus for checking the flow of fluid of the present invention

5 is a cross-sectional view illustrating the flow of water according to the use state of the present invention

<Code Description of Main Parts of Drawing>

10: tube body 11: inlet

12: outlet 20: see-through window

30: impeller 40: impeller support

50 impeller shaft 60 fluid guide plate

The present invention relates to a device that can check the flow of the fluid, and more particularly, in the straight flow passage installed in the pipe with an impeller and a fluid guide plate for guiding the fluid to the blade of the impeller, the straight flow path It is characterized by having a see-through window on the tubular to clearly identify the impeller rotating in the interior of the straight-flow passage, as well as to make it easy to manufacture because it is designed on the straight-flow passage and the structure is simple.

In general, a fluid flowing tube is opaque, and there is no way to visually check whether a fluid is flowing inside the pipe.

The device has been developed to check the inside of the fluid flow pipe, briefly look at its configuration, it was made by installing a transparent viewing window on the part to visually check the inside of the fluid flow pipe.

However, even if the sight glass is installed, it is difficult to accurately determine the fluid flow state with the naked eye when the fluid inside the pipe flows on the pipeline.

When the fluid flows inside the pipeline, it is shaken by the moving force of the fluid, that is, the ball is built in so that it can be moved by the vortex generated by the flow of the fluid. The state can be judged.

However, the movement was also small and it was not easy to identify the flow state of the fluid.

As such, since there have been many difficulties in visually confirming the flow state of the fluid on the conduit, there is a need for an apparatus capable of more accurately and simply recognizing the flow of the fluid in the conduit.

Therefore, the present invention was devised to solve the conventional problems as described above. The main purpose of the present invention is to make the flow of the fluid simple and accurate by visually checking the impeller rotating to the tubular viewing window through which the fluid flows. The purpose is.

On the other hand, the impeller provided on the tubular line is designed to be rotatable, and its structure is simple and easy to manufacture, and the heat treatment is applied to the glass used as the sight glass to ensure semi-permanent transparency and external impact. Its purpose is to be able to withstand enough.

The configuration of the fluid flow check device according to the present invention for achieving the above object is the tube body formed with a see-through window so that the fluid is passed through the inlet and outlet are formed on both sides of the inlet or outlet and the tube is visible, and the viewing window An impeller installed inside the tube body to be visually identified through the body and rotated by the fluid flowing in the tube body, and provided at the inner inlet side of the tube body such that the fluid flowing through the inlet is guided to one side wing of the impeller. It is made to include a fluid guide plate.

In addition, the tube body is formed in a cylindrical shape, so that the viewing window is provided along the outer surface of the cylindrical body of the cylindrical cross section of the viewing window has an arc shape having a certain length.

In addition, one side of the fluid guide plate is fixed to the periphery of the inlet to shield the inlet, it is installed to be inclined so that the fluid introduced through the inlet is guided to one side of the impeller.

Hereinafter, the configuration and operation of the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view illustrating an apparatus for checking the flow of a fluid of the present invention, the tube body 10 having a cylindrical straight line is provided, and both sides of the tube body 10 have a constant diameter so that fluid is introduced or discharged. Inlet 11 and outlet 12 having a.

The tubular body 10 allows the inlet 11 and the outlet 12 and the tube through which the fluid flows to be provided on the tube through which the fluid flows.

On the tube body 10 is provided with a see-through window 20 so that the inside of the tube body 10 is viewed by the naked eye.

The viewing window 20 uses a transparent glass material so that the cross section has an arc shape so as to restore the outer surface of the cylindrical tube body 10 through a heat treatment process.

When the area of the see-through window 20 having the arc shape is widened, that is, the arc length of the see-through window 20 is extended, the cross section becomes close to the shape of a semi-circle or a circle, and the inside of the tubular body 10 is identified at a considerable distance. In addition to the number, it can be confirmed from various angles.

In addition, the semi-permanent transparency is ensured by the use of tempered glass due to the heat treatment, can withstand external shocks enough and durability can be guaranteed.

Meanwhile, as illustrated in FIGS. 2 and 3, the impeller 30 is rotated by the flow of the fluid introduced from the inlet 11 and discharged into the outlet 12 in the tubular body 10. It is provided on the inlet 11 side, so that the axial direction of the impeller 30 and the flow direction of the fluid orthogonal.

The impeller 30 has a plurality of wings formed on the outer circumferential surface and is installed to be rotatable by the impeller shaft 50 between the impeller supports 40 installed with a predetermined height on the inner surface of the tube body 10.

The impeller 30 is rotated by the flow of the fluid, in the structure of the tubular body 10 formed a straight flow path to the fluid flowing from the inlet 11 so that the impeller 30 is completely rotated The fluid guide plate 60, which guides to one side wing of the impeller 30, is installed at the inner inlet 11 side of the tube body 10.

As such, the fluid flow checking apparatus of the present invention is composed of a few simple parts such as an impeller 30, a fluid guide plate 60, a viewing window 20, and a straight passage instead of a double channel, so that the structure is not complicated. It is easy.

On the other hand, as shown in Figures 4 and 5, the fluid guide plate 60 is installed to face the cross section of the inlet 11 cut perpendicular to the flow direction of the fluid, the fluid flowing from the inlet (11) Allows you to change the flow direction.

That is, one end of the fluid guide plate 60 is fixed to the periphery of the inlet 11, and is installed to be inclined at a predetermined angle toward one side wing of the impeller 30, and the width of the fluid guide plate 60 is the inlet. It is formed larger than the diameter of (11) so that the inlet 11 is blocked by the inclined fluid guide plate 60 is not visible.

Therefore, the flow direction of the entire fluid flowing through the inlet 11 is changed by the fluid guide plate 60.

Due to the inclination of the fluid guide plate 60, the flow direction of the fluid is changed and hits one wing of the impeller 30 to rotate the impeller 30.

In addition, the arrow of FIG. 5 indicates the flow direction of the fluid and the rotation direction of the impeller 30. The flow of the fluid introduced through the inlet 11 is directed to one side of the tubular body 10 by the fluid guide plate 60. The pipe body 10 is guided so that a difference in flow velocity occurs around the fluid guide plate 60, and eventually a vortex is formed on the rear surface of the fluid guide plate 60.

However, since the direction of rotation of the impeller 30 and the direction of formation of the vortex are the same, the vortex does not interfere with the rotation of the impeller 30, so that the impeller 30 can be smoothly rotated even in a tubular flow path.

On the other hand, the rotation of the impeller 30 is not limited to checking the flow state of the fluid, the rotation speed of the impeller 30 is different depending on the flow rate, so the flow rate by measuring the rotation speed of the impeller 30 It may also serve as a flow meter to calculate.

As described in detail above, the present invention allows the impeller to rotate with the flow of fluid on a cylindrical tube forming a straight flow path to the naked eye through the viewing window, so that the flow state of the fluid can be easily and accurately recognized. Designed in the flow path, its structure is simple and easy to manufacture.

On the other hand, not only can the inside of the tube body be seen at a considerable distance due to the arc-shaped see-through window, but also at various angles, and the semi-permanent transparency is ensured by the heat-treated see-through window. Sufficient to withstand and durability is guaranteed.

In addition, the flow direction of the fluid is changed by the fluid guide plate installed at the inlet of the straight channel and the impeller is smoothly rotated even in the straight channel despite the occurrence of vortices.

Claims (3)

An inlet 11 and an outlet 12 through which fluid is introduced or discharged on both sides thereof, so that the fluid passes and a portion of the tube body 10 is formed so that the inside of the tube is visible; An impeller 30 which is visually identified through the viewing window 20 and installed inside the tube body 10 so as to rotate by a fluid flowing in the tube body 10, It characterized in that it comprises a fluid guide plate 60 which is provided on the inner inlet 11 side of the tube body 10 so that the fluid flowing through the inlet 11 is guided to one side wing of the impeller 30 Device for checking the flow of fluid. The method of claim 1, The tubular body 10 is formed in a cylindrical shape, the cross-section of the viewing window 20 takes an arc shape having a predetermined length so that the viewing window 20 is provided along the outer surface of the cylindrical tube body 10. Device for checking the flow of fluid. The method of claim 1, The fluid guide plate 60 is fixed at one side to the periphery of the inlet 11 so as to shield the inlet 11 so that the fluid introduced through the inlet 11 is guided to one wing of the impeller 30. Device for checking the flow of fluid, characterized in that the inclined installation.

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