KR100519554B1 - A sealing structure of Trunnion type ball valve - Google Patents

Abstract

   The present invention prevents fluid leakage between the seat ring of the ball valve and the ball in case of fire by metal contact between the seat retainer and the ball, and the leak behind the seat retainer moves toward the ball by elasticity of the O-ring and the seat insert spring. It relates to a sealing structure of a ball valve to prevent the leakage of liquid by pressing (graphite). The present invention relates to a seat valve having a resilient seat ring (teflon, nylon, etc.) in a ball valve, a seat retainer holding the same, an o-ring for preventing fluid flowing between the body and the seat retainer, and a spring for assisting the seat retainer. It has a structure, and fluid is prevented from leaking by elastic contact between the non-metal seating ring and the metal ball. This structure does not prevent the fluid flowing to the outside by melting the seat ring, seat retainer, O-ring, etc. using the Teflon or nylon due to the high heat during the fire.

   In addition, the present invention has been developed in order to more effectively prevent the leakage of the fluid generated in the fire as described above, to provide a uniform pressure to the seat retainer and to reduce the valve operating force. The seat structure of this trunnion type ball valve leaks in two ways in the event of a fire, one due to the missing seat ring and the other to the back of the seat retainer. According to the present invention, the leakage occurring between the seat ring and the ball in case of fire prevents leakage due to the metal contact between the seat retainer and the ball, and the leakage to the rear of the seat retainer causes the O-ring and the space ring on the back of the seat retainer to be lost. The insert is moved to the ball by the spring to prevent the leakage by pressing graphite, which makes it a safe structure in case of fire.

Description

Sealing structure of Trunnion type ball valve

   The present invention relates to the improvement of the sealing device and the reduction of the valve operation force in the ball valve having a ball-shaped opening and closing means, and more particularly to the ball valve sealing that can maintain a stable valve function even in the event of a fire.

 The general seat structure of the ball valve according to the present invention is a fluid (teflon, nylon, etc.) seat ring (2) and the seat retainer (3) holding it, the fluid flowing between the body (4) and the seat retainer (3) It has a seat structure including an O-ring (5) for blocking and a spring (7) for assisting the seat retainer (3), and leaks due to elastic contact between the non-metal seating ring (2) and the metal ball (1). To prevent. However, in such a structure, airtightness is guaranteed because the fluid in the pipe line is not high in temperature, such as water or low temperature gas, but in case of fire, the seat ring, seat retainer and O-ring made of nylon or Teflon It melts away and leaks the fluid, which prevents it from functioning as a valve. In addition, various materials are used to prepare for fire, but structural contradictions and excessive operating force require a large force to turn the valve, which requires a large capacity actuator to select more actuators. Brings a rise.

Recently, processing equipment and technology have been developed to enable the use of a metal material as a sealing material has been widely used. However, in spite of overcoming the problem of the sealing, the sealing between the valve body and the seat retainer generally uses rubber O-rings or Teflon-type O-rings, so that the seal is damaged or lost due to deterioration and thus leaks between the valve body and the seat retainer. There is a problem such as loss of the function of the valve. In addition, conventionally, there is no spring holder for guiding the spring in a certain direction, so the direction of the force is not constant, so that the force is transmitted somewhat differently according to the hydraulic pressure, thereby causing a high possibility of causing the outflow of the fluid.

The technical problem to be achieved by the present invention is to recognize the above problems and to prevent the leakage caused by the wear of the contact surface with the opening and closing ball with the passage of time, the fire occurs to leak between the ball valve body and the seat retainer Space ring to reduce friction between body and ball so that seat ring, O-ring and seat retainer mounted to prevent damage or loss due to deterioration can be maintained. Reduce the length of the side to slightly absorb the elastic force of the spring, and improve the stability and excellent airtightness, and small operation force by improving the structure to form a somewhat rounded shape by removing the angular part of the corner by hand to facilitate insertion To realize the sealing structure of the In addition, the spring holder 8 according to the present invention is formed in the horizontal direction somewhat longer in the horizontal direction of the space generated between the body 4 and the seat insert so that the spring can always exert an elastic force in a certain direction. It is another object to prevent the outflow of the fluid or uneven wear of the seat ring that may occur due to the bias of the force. The present invention is the elastic force (F1) of the spring is the maximum repulsion force that can be generated by the pressure of the fluid ( F2) is designed to be larger than the seat retainer 3 and the seat insulator 6 is in close contact with the ball to prevent the leakage of fluid.

 The present invention prevents the leakage of fluid between the seat ring of the ball valve and the ball by the metal contact between the seat retainer and the ball in case of fire, and the leak behind the seat retainer moves graphite toward the ball by elasticity of the spring. It relates to a sealing structure of a ball valve by pressing to prevent leakage of fluid. 1 is a cross-sectional view showing a general seat structure, Figure 2 is a detailed view of the seat portion enlarged with respect to Figure 1, Figure 3 is a perspective view showing a sealing device for a ball valve, Figure 4 is a longitudinal cross-sectional view of Figure 3 5 shows an enlarged detail of the sealing apparatus with respect to FIG.

   Looking specifically at the configuration according to the present invention through the drawings, the ball (1) having an opening and closing means for blocking or opening the flow of fluid, and the seat ring (2) made of a material such as Teflon or nylon having elasticity And the seat retainer 3 holding it, the O-ring 5 for preventing the fluid flowing between the body 4 and the seat retainer 3, and the contact surface between the ball 1 wear and leak. Spring 7 for pushing the seat retainer 3 and seat int 6 with a constant force to prevent this from occurring, and a spring holder 8 for holding the spring so that the spring can exert a constant elastic force at all times. It is provided with a graphite ring 9 and a space ring 10 vulnerable to heat in case of fire. In this case, a leak may occur in two directions in the event of a fire, one of which is a leakage of fluid between the ball 1 and the seat ring 2 and the other of which is a leak to the rear of the seat retainer. Looking at the relationship between the cause of the fluid leakage and the force of the spring to prevent leakage,

The force to push towards the ball (F1)

And the force (F2) repulsed by the pressure of the fluid is

In Formulas (1) and (2), d2 is larger than d1, so that F1 always works larger than F2. Therefore, when d2 is designed to be larger than d1, even if the seat ring is lost due to fire, the seat retainer is in close contact with the ball to prevent the fluid from leaking. That is, the leakage of fluid between the ball 1 and the seat ring 2 is caused by the seat retainer due to the area difference between the spring 7 and the seat retainer 3 even if the seat ring 2 is lost due to the high heat generated in the fire. (3) moves toward the ball 1 so that the A portion of the sheet retainer 3 of FIG. 5 is in contact with the ball 1 to prevent leakage of the fluid.

Another characteristic configuration of the ball valve according to the present invention when the space ring is lost by the fire relates to a sealing structure to prevent leakage by pressing the graphite (Graphite) by moving the seat insert toward the ball by the elasticity of the spring, in particular The structure of the graphite is to reduce the length of the horizontal to slightly absorb the elastic force of the spring by the space ring in order to reduce the friction between the ball retainer (3) generated by the elastic force of the spring and to facilitate insertion when combined To do this, remove the angled edges by hand to form a somewhat round shape and insert it between the seat insert and the seat retainer. When the space ring 10 is lost due to fire or heat, the seat insert, graphite and the seat retainer are removed by the elastic force of the spring. So that they can stay in contact with each other System by allowing it easy to operate the valve with a small operation force. Looking at the structure of the ball valve according to the present invention in detail, a) the ball (1) for blocking or opening the flow of the fluid, and the fluid does not leak to the outside through the body (4) during operation of the ball Between the seat ring (2) to prevent it from being blocked, the seat retainer (3) for pushing the seat ring with the force of the spring, the seat retainer (3), the seat inserter (6) and the body Graphite (9) to prevent the leakage of gas, the space ring (10) between the seat retainer (3) and the seat insulator (6) to prevent the leakage of fluid, and the space ring and graphite (9) Seat insert (6) pressurized by the force of the spring (7) to prevent the leakage of the fluid, and the spring retainer (3) and the seat retainer (6) in close contact with the ball toward the spring (7) And, by preventing the movement of the spring seat retainer (3) with a constant force A spring holder 8 for fixing the spring to push the seat insulator 6 toward the ball, an o-ring 5 between the seat retainer 3 and the body to prevent leakage of the fluid, and all the above configurations Consists of a body (4) surrounding them. The structure of the spring holder is characterized in that it is induced to a certain distance from the body 4 of the ball valve (to a point two thirds of the distance between the body 4 and the seat insert 6). That is, the structure for inducing the spring holder 8 to a certain distance (to 2/3 of the distance between the body 4 and the seat insert 6) from the body 4 to the seat insert direction (8 in FIG. 5). ) To prevent the shaking of the spring so that a constant force is always applied in a certain direction against any pressure change of the fluid. As described above, the ball valve according to the present invention is configured to sufficiently function as a ball valve even when the configuration of Teflon or nylon is lost when operating as a general ball valve and in a fire.

The present invention is configured to contact a pair of seat ring pressurized by the spring by the configuration and action as described above in both directions of the opening and closing ball, but when the wear of the connection surface with the opening and closing ball with the passage of time It is effective to prevent leakage by pushing seat ring by the force of spring, and elasticity can be secured so that the function as a valve can not be lost even in the event of fire. It works. In addition, in order to reduce friction between the body and the ball in the absence of a fire, the edge of the edge is slightly reduced so that the elasticity of the spring can be almost absorbed by the space ring and the insertion of the edge is facilitated when joining. By removing and improving the structure to be somewhat rounded, it has the effect of having stability, excellent airtightness, and small operation force. In addition, the spring holder 8 according to the present invention is formed in the horizontal direction of the space generated between the body 4 and the seat insert a somewhat suitable holder for the spring size so that the spring can always exert an elastic force in a certain direction elastic force It has the effect of preventing outflow of the fluid and uneven wear of the seat ring, which may be caused by the biasing phenomenon of the spring ring. The spring holder is placed inside the O-ring (5) so that the hardening fluid is sandwiched between the springs. There is an effect of preventing the elements that inhibit.

1 is a cross-sectional view showing a general sheet structure.

2 is an enlarged detailed view of a sheet structure with respect to FIG.

3 is a perspective view showing a sealing device of a ball valve according to the present invention.

4 is a longitudinal cross-sectional view of FIG. 3.

Fig. 5 is an enlarged detail of the sealing device with respect to 4;

6 is a detailed view showing a leak direction.

<Description of the symbols for the main parts of the drawings>

1 Ball 2 Seating 3 Seat Retainer

4: Body 5: O-ring 6: Seat ins

7 Spring 8 Spring Holder 9 Graphite

10: space ring

Claims (3)

In the sealing structure of the trunnion ball valve which can prevent the leakage of fluid even in the case of fire, Ball (1) for blocking or opening the flow of the fluid, A seat ring (2) which prevents the fluid from leaking to the outside through the body (4) during operation of the ball, A seat retainer (3) for pushing the seat ring with the elastic force of the spring (7), Located between the seat retainer (3), the seat inserter (6) and the body and is usually designed to produce a rather short horizontal length so that the space ring absorbs most of the spring force of the spring edge to prevent leakage of fluid in the event of fire Graphite (9) which formed the part round, A space ring 10 positioned between the seat retainer 3 and the seat insulator 6 to prevent leakage of the fluid; A seat insert 6 for pushing the space ring and the graphite 9 with the elastic force of the spring 7 to prevent the fluid from flowing out; Spring holder which guides the body to 2/3 of the distance between the body and the seat insert to prevent the movement of the spring and fixes the spring that pushes the seat retainer 3 and the seat insulator 6 toward the ball with a constant force and direction. 8, A spring 7 fixed to the spring holder to close the seat retainer 3 and the seat insulator 6 toward the ball to prevent leakage of fluid; An o-ring (5) for preventing leakage of the fluid between the seat retainer (3) and the body; Sealing structure of the trunnion ball valve consisting of a body (4) surrounding the constituent means associated with the sealing of the ball valve. delete delete