KR20130002660U - Sight glass for fluid confirmation - Google Patents

Abstract

Disclosure of the Sight Glass for Fluid Identification The disclosed fluid sighting site glass includes a main body in which a flow path is formed so that fluid flows from the inlet to the outlet, and at least one transparent hole communicating with the flow path is formed; Perspective unit for sealing the see-through hole so that the fluid passing through the flow path; And opening and closing unit for opening and closing the flow path at the inlet side of the main body; .

Description

Sight glass for fluid confirmation {SIGHT GLASS FOR FLUID CONFIRMATION}

The present invention relates to a sight glass for checking a fluid, and more particularly, by having an opening and closing member inside the sight glass, the sight glass alone controls the amount of fluid passing through the flow path, as well as a fluid capable of preventing backflow of the fluid. It is about a sight glass for confirmation.

In general, sight glass is mounted on various manufacturing facilities, for example, plant piping installed in chemical plants, steel mills, etc., piping of manufacturing facilities, tanks, boilers, etc. to observe storage fluids or fluids.

On the other hand, the domestic patent application No. 2008-0087677 (application date: 2008. 09. 05.) discloses a "site glass".

The above technical configuration is a background art for helping understanding of the present invention, and does not mean a conventional technology well known in the art.

According to this sight glass, it is necessary to be able to adjust the amount of fluid in the flow path of the sight glass according to the change of the flow rate or the hydraulic pressure.

In addition, when the flow of the fluid is stopped, it should be possible to prevent the backflow of the fluid discharged to the outlet side.

The present invention has been made by the above-described request, and an object thereof is to provide a fluid confirmation sight glass that can control the amount of fluid flowing along the flow path with only the sight glass.

Another object of the present invention is to provide a fluid confirmation sight glass that can prevent a backflow of a fluid even with a sight glass alone.

The fluid sight site glass according to the present invention has a flow path is formed so that the fluid passes from the inlet to the outlet, the body formed with at least one transparent hole communicating with the flow path; A see-through unit for sealing the see-through hole so that a fluid passing through the flow path is seen; And opening and closing unit for opening and closing the flow path at the inlet side; .

Here, the see-through unit, a see-through member is inserted into the see-through hole so that the fluid passing through the flow path; A sealing member laminated on at least one side of an upper side and a lower side of the see-through member; And a closing member coupled to the see-through hole so that the see-through member and the seal member seal the see-through hole. .

Here, the opening and closing unit, the rotating shaft provided on the inlet side; An opening / closing member rotatably provided around the rotation shaft; And an elastic member elastically supporting the opening and closing member to close the flow path at the inlet side. .

As described above, the sight glass for checking the fluid according to the present invention can control the amount of fluid flowing along the flow path only with the sight glass, unlike the conventional design.

In addition, the present invention can prevent the fluid from flowing back in the sight glass.

1 is a perspective view showing a sight glass according to an embodiment of the present invention,
Figure 2 is an exploded view of Figure 1,
Fig. 3 is a longitudinal sectional view of Fig. 1,
4 is a cross-sectional view of FIG.
5 is a view showing an operating state of the sight glass according to an embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings will be described an embodiment of a sight glass for checking the fluid according to the present invention. For convenience of explanation, it will be described using a sight glass that can check the flow of the fluid as an example. In this process, the thicknesses of the lines and the sizes of the components shown in the drawings may be exaggerated for clarity and convenience of explanation. In addition, the terms described below are defined in consideration of functions in the present invention, and this may vary depending on the intentions or customs of the user, the operator, and the like. Therefore, definitions of these terms should be made based on the contents throughout the specification.

1 is a perspective view illustrating a sight glass according to an embodiment of the present invention, FIG. 2 is an exploded view of FIG. 1, FIG. 3 is a longitudinal cross-sectional view of FIG. 1, and FIG. 4 is a cross-sectional view of FIG. 1.

1 to 4, a sight glass according to an embodiment of the present invention includes a main body 10, a see-through unit 20, and an opening / closing unit 30.

The main body 10 has an inlet 13 and an outlet 15 formed along the flow direction of the fluid, and forms a flow path 11 to allow the fluid to pass from the inlet 13 to the outlet 15. And at least one through-hole 17 in communication with the flow path 11 is formed in the main body 10.

The inlet 13 and the outlet 15 are formed with threads for connection with the pipe. In addition, the through-hole 17 is formed with a thread for the coupling of the see-through unit 20. Although not shown, a flange may be formed at the inlet 13, the outlet 15, and the see-through hole 17.

The see-through unit 20 seals the see-through hole 17 of the main body 10 so that the fluid passing through the flow path 11 is projected. The see-through unit 20 includes a see-through member 21, a sealing member 23, and a closing member 25.

The see-through member 21 is inserted into the see-through hole 17 and allows the fluid passing through the flow passage 11 to see through. The see-through member 21 is made of a transparent or semi-transparent material, and can sufficiently withstand the pressure of the fluid passing through the flow path 11. The see-through member 21 may be made of transparent or translucent glass or acrylic.

The sealing member 23 is stacked on at least one side of the upper side and the lower side of the see-through member 21. The sealing member 23 seals the gap between the see-through member 21 and the see-through hole 17, thereby preventing the fluid passing through the flow path 11 from leaking.

The sealing member 23 may surround the edge of the see-through member 21 and may form a ring shape to check the fluid passing through the flow path 11. The sealing member 23 is a material having elasticity such as rubber, and may be formed of a gasket in which a hole communicating with the O-ring or through hole 17 is formed.

The closing member 25 is coupled to the see-through hole 17 so that the see-through member 21 and the sealing member 23 are in close contact with the see-through hole 17. The closing member 25 may form a ring shape to check the fluid passing through the passage 11 through the see-through member 21.

By pressing the sealing member 23 and the see-through member 21 with the coupling force that the closing member 25 is coupled to the see-through hole 17, the seal member 23 is elastically deformed to the see-hole 17 and the see-through member 21 Can close the gap between

As shown in FIG. 3, the closing member 25 may be coupled to the see-through hole 17 to seal the see-through hole 17 by elastically deforming the sealing member 23.

The opening and closing unit 30 is installed at the inlet 13 side of the main body 10 to open and close the flow path (11). The opening and closing unit 30 includes a pivot shaft 31, an opening and closing member 33, and an elastic member 35.

Since the opening / closing unit 30 is provided in the flow path 11, the opening / closing unit 30 is not corroded or oxidized by the fluid passing through the flow path 11. And this phenomenon prevents the opening and closing unit 30 to interfere with opening and closing the flow path (11). In addition, the corrosives or oxides generated due to corrosion or oxidation are not mixed in the fluid.

The rotation shaft 31 is provided at the inlet 13 side of the main body 10. Both ends of the pivot shaft 31 are supported by the main body 10 at the inlet 13 side.

The opening / closing member 33 is rotatably provided around the rotation shaft 31 supported by the main body 10.

The elastic member 35 elastically supports the opening and closing member 33. The elastic member 35 closes the flow path 11 at the inlet 13 side. The elastic member 35 is installed so that one end is supported by the main body 10 and the other end is supported by the opening / closing member 33, so that the opening / closing member 33 is elastically supported to close the inlet.

The elastic member 35 may be formed of a torsion spring to cause torsional deformation according to the rotation of the opening and closing member 33. Accordingly, the rotating shaft 31 passes through the main body 10, the opening and closing member 33, and the elastic member 35 so that both ends of the rotating shaft 31 are supported by the main body 10, and the elastic member 35 opens and closes. The member 33 is elastically supported to close the flow passage 11 at the inlet 13 side.

Now, the operation of the sight glass according to an embodiment of the present invention will be described.

FIG. 5 is a view illustrating an operating state of a sight glass according to an embodiment of the present invention. Referring to FIG. 5, the inlet 13 and the outlet 15 are connected and fixed to pipes, respectively. The fluid passes through the flow path 11 connected to the outlet 15. At this time, it is possible to check the state of the fluid passing through the flow path 11 through the see-through unit 20 coupled to seal the see-through hole 17.

At the inlet 13 side, the elastic member 35 closes the flow path 11 as the elastic member 35 elastically supports the opening and closing member 33.

At this time, if the flow rate or hydraulic pressure of the fluid flowing into the inlet 13 is equal to or less than the supporting force of the elastic member 35 to elastically support the opening and closing member 33, the flow path 11 is closed on the inlet 13 side The fluid does not pass through the flow path 11.

And, if the flow rate or hydraulic pressure of the fluid flowing into the inlet 13 is greater than the holding force of the elastic member 35 for elastically supporting the opening and closing member 33, the flow path 11 is opened on the inlet 13 side, the fluid is Passed through the flow path 11 is discharged to the outlet (15).

When the flow of fluid in the flow passage 11 is stopped, the opening and closing member returns to the elastic support force of the elastic member 35, and the opening and closing member 33 closes the inlet 13. As a result, it is possible to prevent the fluid inside the main body 10 as well as the fluid discharged to the outlet 15 from flowing back to the inlet 13.

Although the present invention has been described with reference to the embodiments shown in the drawings, this is merely exemplary, and those skilled in the art to which the art belongs can make various modifications and other equivalent embodiments therefrom. Will understand.

Therefore, the true scope of technical protection of this invention should be determined by the utility model registration claim scope.

10: body 11: euro
13: entrance 15: exit
17: see-through construction 20: see-through unit
21: seeing member 23: sealing member
25: finishing member 30: opening and closing unit
31: rotation shaft 33: opening and closing member
35: elastic member

Claims (3)

A main body having a flow path configured to allow fluid to pass from the inlet to the outlet, and having at least one transparent hole communicating with the flow path;
A see-through unit for sealing the see-through hole so that a fluid passing through the flow path is seen; And
An opening and closing unit for opening and closing the flow path at the inlet side; Sight glass for checking the fluid comprising a.
The method of claim 1,
The see-through unit,
A see-through member inserted into the see-through hole so that the fluid passing through the flow path is seen;
A sealing member laminated on at least one side of an upper side and a lower side of the see-through member; And
A closing member coupled to the see-through hole so that the see-through member and the seal member seal the see-through hole; Sight glass for fluid identification, comprising a.
The method according to claim 1 or 2,
The opening and closing unit,
A rotating shaft provided at the inlet side;
An opening / closing member rotatably provided around the rotation shaft; And
An elastic member for elastically supporting the opening and closing member to close the flow path at the inlet side; Sight glass for fluid identification, comprising a.

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