KR20010010319A - Pulg valve - Google Patents

Abstract

PURPOSE: A plug valve is provided to reduce the torque applied to the inside of a body by attaching numerous ribs to the inside and to prevent the leakage of fluid by improving the sealing structure of a plug valve. CONSTITUTION: A wedge ring(34), a formed diaphragm(35), a metal diaphragm(36), an anti-static thrust collar(37) and an O-ring(38) are sequentially combined around a stem of a plug(32). A lower portion of the anti-static thrust collar is inserted into an engaging sill(353) of the formed diaphragm to press the metal diaphragm. An insertion portion(371) and a plane portion(372) are formed on an upper portion of the anti-static thrust collar. The insertion portion is inserted into a gap formed by the stem and a cover(39), and the plane portion is pressed by an adjusting bolt(40). An O-ring groove(391) is formed around the cover to fix the O-ring. The O-ring is inserted into the groove of the cover to closely contact the insertion portion of the anti-static thrust collar. The O-ring completely interrupts the inside and the outside to prevent the inside from corroding by external temperature, humidity and air. In addition, the O-ring has a sealing function for preventing the leakage of fluid to the outside in secondary sealing structure.

Description

Plug valve

The present invention relates to a plug valve, and in particular, a plug valve having a plurality of ribs attached to an inner side to reduce torque acting on the inside of the body and an improved sealing structure to prevent leakage of the fluid to the outside. It is about.

Plug valves are largely divided into lubricated and non-lubricated. In addition, the lubricated plug valve is slightly changed in shape depending on the manufacturer, a representative example thereof will be described below.

1 is an exploded perspective view illustrating components of a plug valve according to the related art, and FIG. 2 is a cross-sectional view of the plug valve shown in FIG. 1. 3 is an enlarged view illustrating an enlarged portion 'A' of the plug valve illustrated in FIG. 2, FIG. 4 is a cross-sectional view taken along the line BB of the plug valve illustrated in FIG. 2, and FIG. 5 is illustrated in FIG. 4. It is sectional drawing which shows the state which the pressure acted on the plug valve shown closed.

As shown in FIGS. 1 and 2, the plug valve 10 of the prior art includes a body 11. In the body 11, the inlet 111 and the outlet 112 through which the fluid flows are formed on each side. In addition, the upper opening portion 113 is formed on the upper portion of the body 11 so as to insert different types of components.

A sleeve 12 is formed in each of the body 11 and the holes 121 are formed in the opposite surface, respectively, and the inside of the sleeve 12 includes a plug in which the holes 131 are formed in the opposite surface, respectively. 13; The plug is arranged.

At this time, the sleeve 12 is formed of a teflon (teflon) to act as a lubricant, and serves as a primary sealing (sealing). In addition, the sleeve 12 is spaced apart from the inner surface of the body 11 by a predetermined distance as shown in Figure 4, so that the relief space (between the sleeve 12 and the inner surface of the body 11) 26) is formed.

The plug 13 is formed with a stem 132 such that various components for preventing leakage of the fluid to the outside may be located. On top of this stem 132 is formed a screw thread 133 to which the bolt can be coupled.

PTFE diaphragm 14 (Poly Tetra Fluoro Ethylene diaphragm) 14 serving as a secondary sealing, a delta ring 15, and a metal diaphragm 16 are formed around the stem 132 of the plug 13 disposed as described above. A metal diaphragm, thrust collar 17 and discharge plate 18 are sequentially coupled.

In addition, a cover 19 is disposed on an upper portion of the secondary sealing structure, in which three adjusting bolts 20 adjust bolts to press the discharge plate 18 to leak out of the fluid. It is combined to prevent. And, the cover 19 is coupled to the body 11 by the cover bolt 21.

In addition, a hub 22, a name plate 23, and a handle 24 are coupled to the stem 132 of the plug 13 protruding upward in the cover 19 by the hub bolt 25. It is. At this time, the hub bolt 25 is coupled to the screw thread 133 formed on the top of the stem 132.

In the plug valve 10 of the related art configured as described above, as shown in FIGS. 2 and 3, three adjusting bolts 20 press the discharge plate 18 and the trust collar 17, and the trust collar 17 presses the metal diaphragm 16, the delta ring 15, and the PTFE diaphragm 14 to seal the fluid so that it does not leak out. That is, the lower triangular portion of the thrust collar 17 acts perpendicular to the delta ring 15, so that the force is converted into the thrust and radial loads to maintain the sealing at the pressing load.

However, when the sleeve 12, which serves as the primary seal, is damaged, pressure is transferred to the secondary seal located at the top.

For example, assuming that a fluid of 40 kg / cm ² is leaked, the force P pressed downward from the top of the plug 13 (the outer diameter of the plug 13 is 60 mm and the stem 132 is When the outer diameter is 30mm] is the same as the equation (1).

^{P = (π6 2/4 -} π3 2/4) * 40kg / ㎝ 2 = 848.23kg

When the above force (P) is transmitted to the secondary sealing, the plug (13) is lowered and the thrust collar (17) cannot push the delta ring (15) and the PTFE diaphragm (16) so that the fluid Leaks occur.

In addition, the use temperature of the various use conditions of the valve has an important effect on the performance of the plug valve (10). That is, when the plug valve 10 is used at a high temperature, the sleeve 12 located inside the body 11 is expanded in volume by a high temperature. At this time, if there is no relief space 26, the plug ( The expansion force acts on the 13 to increase the operating torque inside the body 11, whereby the sleeve 12 is detached from the body 11 or the damaged portion is damaged by the plug 13 to prevent this. The relief space 26 is formed inside the body 11.

However, when the pressure of the plug valve 10 of the prior art in which the relief space 26 is formed in this way acts on one side in a closed state as shown in Fig. 5, the pressure in the axial direction of the plug 13 The force is applied in a direction perpendicular to the direction, and the force receives a stronger sealing force than when the valve 10 is opened on the sleeve 12 side without pressure.

However, on the contrary, the sealing force on the side of the sleeve 12 on which pressure is applied decreases relatively, and in the worst case, the pressure flows into the relief space 26 to push the sleeve 12 into the empty space of the plug 13. Deform the sleeve 12. Then, when the plug valve 10 is opened, a problem of cutting the sleeve 12 that has been pushed into the empty space of the plug 13 while rotating the edge of the plug 13 occurs in the worst case.

In the plug valve 10 of the related art, the thrust collar 17 is kept horizontal by three adjustment bolts 20, and the thrust collar 17 is disposed so as not to be in close contact with the stem 132. In this case, there is a possibility that the components may be inclined during assembly so that the working torque in the body 11 increases in use. In addition, when the tightening amount of the three adjusting bolts 20 is different, there is a risk of external leakage of the fluid can not be made in the structural seal.

In addition, the plug valve 10 of the related art has a complicated component by separately disposing the discharge plate 18 to prevent static electricity.

In addition, the plug valve 10 of the related art does not have a separate part to prevent the external temperature, moisture, air, etc. to be introduced, there is a problem that the internal life is corroded by these factors to shorten the life.

Accordingly, the present invention has been made to solve the problems of the prior art as described above, by attaching a plurality of ribs on the inner side to reduce the torque acting on the inside of the body, improve the sealing structure to reduce the leakage of fluid The object is to provide a plug valve which can be prevented.

1 is an exploded perspective view for explaining the components of the plug valve according to the prior art,

2 is a cross-sectional view of the plug valve shown in FIG. 1,

3 is an enlarged view illustrating an enlarged portion 'A' of the plug valve illustrated in FIG. 2,

4 is a cross-sectional view taken along the line B-B of the plug valve shown in FIG.

5 is a cross-sectional view illustrating a state in which pressure is applied when the plug valve shown in FIG. 4 is closed;

6 is an exploded perspective view for explaining the components of a plug valve according to an embodiment of the present invention;

FIG. 7 is a perspective view of a portion cut away to explain the interior of the body of the plug valve shown in FIG. 6;

8 is a cross-sectional view of the plug valve shown in FIG. 6,

9 is an enlarged view illustrating an enlarged portion 'C' of the plug valve illustrated in FIG. 8;

10 is a cross-sectional view taken along the line D-D of the plug valve shown in FIG. 8,

FIG. 11 is a perspective view illustrating a state in which a plug and a sleeve of the plug valve illustrated in FIG. 6 are coupled;

♠ Explanation of symbols on the main parts of the drawing ♠

30 plug valve 31 body

32: sleeve 33: plug

34: Wedge Ring 35: Formed Diaphragm

36: metal diaphragm 37: discharge trust collar

38: O-ring 39: cover

40: adjusting bolt 46: relief space

According to the present invention for achieving the above object, the sealing structure, the insertion groove is formed in the lower portion and the formed diaphragm (formed diaphragm) is formed obliquely on the top and the wedge is inserted into the insertion groove of the form diaphragm It consists of a wedge ring and an antistatic thrust collar, which is located in the gap formed in the stem and the cover, is coupled to the latching jaw of the formed diaphragm and configured to be pressed by the adjusting bolt.

In addition, according to the present invention, the sealing structure additionally includes an O-ring fitted in the O-ring groove formed in the inner circumference of the cover to completely block the outside and the inside of the body.

In addition, according to the present invention, a plurality of reliefs in the sleeve, by passing the pressure introduced into the relief space into the empty space of the plug, so that the introduced pressure does not act on the sleeve, thereby preventing damage to the sleeve in advance. The hole is formed.

In addition, according to the present invention, the inlet and the outlet of the body is formed by extending the port lip (port lip) in the inward direction of the body, to remove the foreign matter adhering to the surface of the plug and the fluid inside the plug To guide.

In addition, according to the present invention, horizontal pressure ribs are formed on the inner circumferences of the upper and lower parts of the body, respectively, to form a band, and vertical pressure ribs are formed on both sides of the pot rib, respectively, Reduce torque.

In the following, a preferred embodiment of a plug valve according to the present invention will be described in detail with reference to the accompanying drawings.

Except that the plug valve 30 of the present invention has a plurality of ribs attached to the inner surface of the body to reduce the torque acting on the inside of the body, and improved the secondary sealing structure to prevent the leakage of fluid. Is the same as the plug valve 10 of the prior art. Therefore, in the embodiment of the present invention will be given the same or similar reference numerals for the same or similar components as the prior art, the description thereof will be omitted here.

6 is an exploded perspective view illustrating components of a plug valve according to an exemplary embodiment of the present invention, and FIG. 7 is a perspective view of a portion cut away to explain the interior of the body of the plug valve shown in FIG. 6. 8 is a cross-sectional view of the plug valve shown in FIG. 6. 9 is an enlarged view illustrating an enlarged portion 'C' of the plug valve illustrated in FIG. 8, FIG. 10 is a cross-sectional view taken along the line DD of FIG. 8, and FIG. 11 is illustrated in FIG. 6. A perspective view illustrating a state in which a plug and a sleeve of the illustrated plug valve are coupled.

As shown in Figures 6 to 8, the body 31 of the present invention is closed at its lower portion, the inlet 311 and the outlet 312 of such a body 31 in the port in the inward direction of the body 31 A port lip 313 is formed to extend. The port ribs 313 are inserted into the holes 321 respectively formed in the sleeve 32 so as to project slightly inwardly of the sleeve 32, but do not touch the plug 33 positioned inside the sleeve 32. It is arranged.

The port rib 313 configured as described above can control and open and close any type of fluid by removing the dead space inside the body 31. In addition, in the case of using the slime material, the solid material, etc., the pot lip 313 adheres to the surface of the plug 33 when the valve 30 is opened or closed, thereby damaging the surface of the sleeve 32. It removes foreign substances. That is, the pot lip 313 is disposed to protrude slightly on the inner side of the sleeve 32, so that foreign matter adhering to the surface of the plug 33 is removed during operation.

In addition, as shown in FIGS. 8 and 10, the pot rib 313 is fitted into the hole 121 of the sleeve 12, and when the fluid passes through the inside of the valve 30 at a high speed, the fluid is guided. It directly engages the sleeve 12 and serves to prevent wear or deformation.

In addition, horizontal pressure ribs 314 are formed in the inner circumferences of the upper and lower portions of the body 31, respectively, to form a band, and the amount of the port 313 formed in the inlet 311 and the outlet 312, respectively. Vertical pressure ribs 315 are formed at the sides. That is, the horizontal pressure ribs 314 and the vertical pressure ribs 315 are disposed to protrude only in the places where the sealing is substantially required among the interior of the body 31.

That is, as shown in Figure 11, the plug valve 30 is about five times higher than other process valves (ball valve-line contact) because the sealing surface is in surface contact between the plug 33 and the sleeve 32. Has an operating torque. In order to reduce the operating torque as described above, the present invention is formed so as to have a perfect sealing area by protruding the pot rib 313, the horizontal pressure rib 314, and the vertical pressure rib 315 described above to substantially where the sealing is necessary.

In the plug valve 30 of the present invention, a sleeve 32 having a plurality of relief holes 322 is used. The use of the sleeve 32 in which the relief hole 322 is formed in this way allows the pressure introduced into the relief space 46 to pass through the empty space of the plug 33 so that the pressure introduced does not act on the sleeve 33. To prevent damage to the sleeve 33 in advance.

Hereinafter, the secondary sealing structure of the present invention will be described in detail.

6, 8 and 9, the wedge ring 34, the formed diaphragm 34, which serves as a secondary sealing, is formed around the stem 332 of the plug 32 of the present invention. The formed diaphragm, the metal diaphragm 36, the antistatic thrust collar 37 and the O-ring 18 are sequentially combined.

Here, the foamed diaphragm 35 is formed with an inner diameter 351 to be fitted to the stem 332, the inside of which is formed an insertion groove 352 into which the wedge ring 34 can be fitted. . In addition, the formed diaphragm 35 is provided with a latching jaw 353 formed to be inclined so that the discharge thrust collar 37 can be fitted and fixed thereto, and a flat portion 354 on which the flat metal diaphragm 36 may be disposed. have.

The lower portion of the discharge trust collar 37 is fitted to the engaging jaw 353 of the formed diaphragm 35 to be coupled to the metal diaphragm 36. In addition, the upper portion of the discharge trust collar 37, the insertion portion 371, which can be fitted into the gap formed by the stem 332 and the lid 39, and the flat portion 372 that the adjustment bolt 40 can press. ) Is formed.

In addition, an O-ring groove 391 in which the O-ring 38 is fitted is fixed to the circumference of the lid 39 disposed around the insertion portion 371 of the discharge trust collar 37. That is, the O-ring 38 is fitted into the O-ring groove 391 of the lid 39 to bring the circumference of the insertion portion 371 of the discharge trust collar 37 into close contact. The O-ring 38 disposed as described above completely blocks the outside and the inside to prevent the inside from being corroded by the influence of outside temperature, moisture, and air, and is formed of a material resistant to temperature and corrosion. This O-ring 38 also has a sealing function that prevents leakage to the outside even if fluid leaks in the secondary sealing structure.

Secondary sealing structure of the present invention configured as described above is made of a magnetic sealing, for example, even if the plug 33 is lowered under the external force, the pressure of the leaked fluid is inserted into the foamed diaphragm 35 Acting outwardly relative to the groove 352, the seal remains stable so that no external exposure of the fluid occurs.

In addition, the secondary sealing structure of the present invention, since the discharge thrust collar 37 slides along the outer surface of the stem 332, the secondary sealing component irrespective of the exact tightening amount of the three adjustment bolts 40 Can be pressed with the same horizontal force. In addition, since the secondary sealing structure of the present invention discharges the static electricity generated by the plug 33 through a discharge trust collar 37 which functions differently without discharging the static electricity generated through a separate component, the internal structure is simplified.

As described in detail above, the plug valve of the present invention has the effect of completely blocking external leakage of the fluid by improving the secondary sealing structure.

In addition, the plug valve of the present invention has the effect of reducing the torque acting on the interior of the body by arranging the pot rib, the horizontal pressure rib and the vertical pressure rib to protrude only in the place where the sealing is actually necessary.

In addition, since the lower portion of the plug valve of the present invention is closed, there is an effect of preventing the external leakage of the fluid therethrough.

The technical idea of the plug valve of the present invention has been described above with the accompanying drawings, but this is by way of example only for describing the best embodiment of the present invention and not for limiting the present invention.

In addition, it is obvious that any person skilled in the art can make various modifications and imitations without departing from the scope of the technical idea of the present invention.

Claims (5)

A body 31 having an inlet 311 and an outlet 312 through which fluid is introduced or discharged, a sleeve 32 disposed inside the body 31, and a plug disposed inside the sleeve 32. (33), a sealing structure disposed around the stem 332 of the plug 33 to prevent leakage of fluid, and a cover 39 positioned on the sealing structure and coupled to the body 31. And a steering bolt 24 coupled to the adjusting bolt 40 for adjusting the sealing force by pressing the sealing structure and the stem 332 protruding upward of the lid 39 to open or close the plug 33. In a plug valve comprising: The sealing structure has a diaphragm (formed diaphragm) (35) formed with an insertion groove (352) formed at the lower portion and a latching jaw (353) inclined at the upper portion, and an insertion groove (352) of the formed diaphragm (35). Wedge ring (34; 34) to be fitted, and is located in the gap formed in the stem 332 and the cover 39 is coupled to the engaging jaw (353) of the formed diaphragm 35 and to the adjustment bolt 40 A plug valve, characterized in that it comprises an antistatic thrust collar (37) configured to be pressed by. The sealing structure of claim 1, wherein the sealing structure additionally includes an O-ring 38 inserted into an O-ring groove 391 formed at an inner circumference of the cover 39 to completely block the outside and the inside of the body 31. Plug valve, characterized in that. 2. The sleeve 32 according to claim 1, wherein the pressure introduced into the relief space 46 passes through the empty space of the plug 33, so that the introduced pressure does not act on the sleeve 33. Plug valve, characterized in that a plurality of relief holes (322) are formed to prevent damage to the sleeve (33) in advance. According to any one of claims 1 to 3, Inlet port 311 and the outlet 312 of the body 31 is formed by extending the port lip (313; port lip) in the inward direction of the body 31 Plug valve, characterized in that to remove foreign matter adhering to the surface of the plug (33) and to guide the fluid to the inside of the sleeve (32). The upper and lower inner circumferences of the body 31 have horizontal pressure ribs 314 formed to form a band, and both sides of the port ribs 313 have vertical pressure ribs. 315, respectively formed, to reduce the torque acting in the body (31).