KR101196191B1 - noise preventing cover for ball valve - Google Patents

Abstract

The present invention relates to a ball valve to be used in a heating distributor, and more particularly, a noise blocking cover for a ball valve interposed in the ball valve to block the noise of the fluid generated in the process of the fluid is cut off when the cutoff for the blocking of the fluid. It is about.
The noise blocking cover for a ball valve according to the present invention includes a main body having a flow path through which a fluid flows, a ball provided on the flow path of the main body to block the inflow and outflow of the fluid, and provided at both sides of the ball. In the ball valve composed of seats,
Between the ball and the flow path is interposed a noise blocking cover which is fitted to the seat so that the noise of the fluid is cut off when the fluid is cut off by the rotation of the ball,
The noise blocking cover,
A flange formed along a circumference of an outer circumferential surface of the noise shield cover;
A curved portion protruding toward one side of the flange and formed at a distal end thereof, the curved portion contacting the outer surface of the ball and the communication port inner circumferential surface of the ball rotated to selectively close a portion of the central portion of the curved portion inside the curved portion; A fitting portion having an opening having a curved surface that matches the curvature and fitted to the sheet; And
A fixing part protruding to the other side of the flange and fitted into the flow path with the opening communicating; And a control unit.

Description

Noise preventing cover for ball valve

The present invention relates to a ball valve to be used in a heating distributor, and more particularly, a noise blocking cover for a ball valve interposed in the ball valve to block the noise of the fluid generated in the process of the fluid is cut off when the cut-off for blocking the fluid. It is about.

In general, a valve for blocking the flow of the fluid or gas is essentially provided on the pipeline through which the fluid or gas flows throughout the house or industry.

These valves include gate valves, globe valves, check valves, butterfly valves, plug valves, ball valves, and safety valves. The valves are used in various ways depending on the installation location.

Among them, the valves used in the hot water distributor for heating the house include a globe valve and a ball valve, and a globe valve is generally used.

The globe valve has various bending flow paths, and is provided with a plate-shaped disk which is supported by an elastic member inside the valve body to block the flow path to cut off the flow path by blocking the flow of fluid by the falling of the disk.

However, the globe valve has the following problems.

As the flow path is bent and the inner diameter of the flow path is made smaller than the pipe line, resistance of the inflow fluid is generated, which causes the formation of air in the fluid due to the pressure difference between the inlet and the outlet. There is a problem that causes it to fall.

In addition, when the pressure of the inflowing fluid is high, the disk is pushed up, or when foreign matter accumulates between the disk and the flow path for a long time there is a problem that the fluid leaks.

In order to solve the above problems, a ball valve has been proposed.

As shown in FIG. 1, a main body 10 having flow paths 13 formed at both sides of the inlet and outlet, and a fluid flowing in and out of the flow path 13 provided on the flow path 13 of the body 10. Ball 20 having a communication port 23 is formed to communicate with the flow path 13 to block the rotation lever penetrates the body 10 and one end is coupled to the ball 20 to rotate the ball 20 30 and a pair of seats 40 holding water ball while surrounding the ball 20 in a state provided on both sides of the ball 20, one end is combined with the main body 10 and the other end is hot water Is connected to the pipe (P) is composed of a pipe connector 50 to allow fluid to flow to each destination.

Since the ball valve 1 as described above is made to block the source of the fluid by closing the flow path 13 through the rotation of the ball 20, no leakage occurs due to the pressure of the fluid, and the flow path 13 is one-way. Formed to suppress the pressure generation of the fluid and at the same time foreign matter is not produced to overcome the problem of the globe valve.

In addition, the ball valve 1 has an optimum condition for heating because the diameter of the communication port 23 of the ball 20 has the same diameter as that of the pipe diameter, and there is no loss of pipeline noise.

However, the ball valve (1) is not yet used in the first half of the hot water distributor for heating the house despite the problems of the globe valve, the reason for the most sensitive noise in the residential environment, namely the ball valve ( This is because the noise generated when 1) is closed is problematic.

It is precisely the noise of the water flow that occurs when the fluid flowing through the ball valve 1 is cut off. For example, when the fluid cutoff time is 10 seconds, the occurrence of 6 seconds after 2 seconds is very severe, the noise is a very sharp high treble is "instantaneous" treble occurs instantaneously.

Noise is generated because the opening degree of the flow path 13 gradually decreases in the process of the ball 20 cutting off the fluid, so that the flow rate of the fluid passing therethrough is also relatively fast.

The noise is caused by the air contained in the fluid. Typically, since the fluid contains about 26.5% of air, when the flow velocity of the fluid is increased and the passage 13 is narrowed, noise generated while colliding with each other during the passage of the air contained in the fluid through the passage 13 is generated. Let's go.

Noise generation can be seen the result through the graph shown in FIG.

As shown, the section “a” is a section in which the flow path 13 is completely opened by the ball 20 or the cutoff of the flow path 13 is started. Since the impact and the pressure change of the fluid occurs before the noise is generated in this area.

"b" section is a section in which the opening degree of the flow path 13 is gradually closed by the rotation of the ball 20, and the flow path 13 becomes narrow, and the flow path 13 narrowed according to the change in the opening amount of the flow path 13 is opened. As the pressure of the fluid passing through increases, the collision of air bubbles proceeds, and noise is gradually generated.

"c" section is a section in which the opening amount of the flow path 13 is almost closed by the rotation of the ball 20, the flow path 13 is the flow path 13 of the "b" section in accordance with the change in the opening amount of the flow path 13 Since the pressure is narrower than), the pressure of the fluid passing through the flow path 13 is further increased and at the same time, the collision of air bubbles is also increased, which is the area where noise is generated at the highest level.

Referring to the graph as described above, it can be seen that the noise is generated when the opening amount of the flow path 13 is 40%, the fluid inflow amount according to the opening amount as the opening amount toward the "c" section from the "b" section This change can be seen that the noise gradually increases accordingly.

The present invention has been made to solve the problems and technical bias as described above, the object of the present invention is to block the noise due to the cut-off of the fluid by interposing the noise blocking cover in the ball valve.

In order to achieve the above object, the present invention provides a body having a flow path through which the fluid flows, a ball having a communication port provided on the flow path of the main body to block the entry and exit of the fluid, and provided on both sides of the ball. In the ball valve consisting of a seat, between the ball and the flow path is interposed a noise blocking cover fitted to the seat so that the noise of the fluid is cut off when the fluid is cut (cut off) by the rotation of the ball, the noise Blocking cover, the flange formed along the outer circumference of the noise shield cover; A curved portion protruding toward one side of the flange and formed at a distal end thereof, the curved portion contacting the outer surface of the ball and the communication port inner circumferential surface of the ball rotated to selectively close a portion of the central portion of the curved portion inside the curved portion; A fitting portion having an opening having a curved surface that matches the curvature and fitted to the sheet; And a fixing part protruding to the other side of the flange and fitted into the flow path while the opening is in communication. It is provided with a noise blocking cover for a ball valve comprising a.

At this time, the curved surface is preferably formed on one side of the center of the curved portion so that the fluid is cut off when the communication hole rotation angle of the ball to 50 to 60 degrees with respect to the flow path of the main body.

In this case, at least the position of the noise blocking cover is fixed to the outer circumferential surface of the fixing portion of the noise blocking cover so that the curvature of the curved surface of the opening and the inner surface of the communication hole of the ball coincide with each other when the fixing portion is fitted into the flow path. One or more fixing protrusions may be further formed.

In this case, a fixing groove corresponding to the fixing protrusion may be further formed in the passage when the fixing portion of the noise blocking cover is fitted.

On the other hand, the noise blocking cover is preferably made of synthetic resin.

According to the noise shield cover for the ball valve of the present invention having the configuration as described above, there is an effect that the noise of the fluid generated in the process of the fluid is cut off by interposing the noise shield cover in the ball valve.

In addition, it is possible to install in the house as the noise presented by the problem of the conventional ball valve is solved, and at the same time there is an effect of preventing the leakage of fluid and the thermal efficiency is lowered.

1 is a longitudinal sectional view of the main portion showing a conventional ball valve.
2 is a reference diagram showing a noise relationship of a conventional ball valve.
Figure 3 is a main longitudinal sectional view showing a state in which the noise shield cover is mounted on the ball valve according to the present invention.
Figure 4 is an exploded perspective view showing a state in which the noise shield cover is coupled according to the present invention.
5 is a reference diagram showing a state in which the fluid is cut off by the noise blocking cover according to the present invention.

Hereinafter, the present invention will be described in more detail with reference to the accompanying drawings. The present embodiments and drawings are intended to assist the understanding of the present invention and are not intended to limit the scope of the invention in any way.

The present invention is to provide a noise shield cover for the ball valve so that the noise according to the flow of the fluid is cut off when the fluid cut-off interposed between the ball valve and the pipe connector.

In addition, the noise blocking cover in the present invention can be selected and used in the automatic ball valve and the manual ball valve is not limited to the scope of use, the ball valve to be described later will be described by using a manual ball valve as an example.

For reference, the same numbers will be given to the same parts as in the prior art.

3 to 5, the main body 10 of the ball valve 1 has a flow path 13 in one direction, and the inlet and outlet through which fluid flows are formed on both sides thereof.

The ball 20 is provided on the flow path 13 of the main body 10, and the circular communication port 23 is formed so that the fluid which flows through the flow path 13 may be interrupted | blocked.

The ball 20 has a rotary lever 30 that passes through the main body 10 and has one end coupled to the ball 20 and the other end rotating the ball 20 while being exposed to the outside of the main body 10. Are combined. The ball 20 is rotated through the rotation of the rotary lever 30 to selectively control the flow path 13 of the main body 10.

Balls disposed on the flow path 13 on both sides of the ball 20 and positioned on the flow path 13 of the main body 10 while surrounding a part of the ball 20 in contact with the ball 20 ( 20 is provided with a pair of seats 40 to prevent the flow to be rotated by the rotary lever 30.

One end of the main body 10 is coupled to the main body 10 and the other end of the main body 10 is connected to the hot water pipe (P) to the respective destinations flow the fluid flowing through the main body 10 to the hot water pipe (P) Pipe connector 50 to be coupled is coupled.

Between the ball 20 and the flow path 13, the noise blocking cover 200 is fitted to the seat 40 so that the noise of the fluid is cut off when the fluid is cut off by the rotation of the ball (20) ) Is intervened.

The noise blocking cover 200 includes a flange 230 formed along a circumference of an outer circumferential surface of the noise blocking cover 200; The curved portion 211 protrudes to one side of the flange 230 and is formed at a distal end thereof and is in surface contact with the outer surface of the ball 20, and a portion of the central region of the curved portion 211 is formed inside the curved portion 211. An opening portion 215 having a curved surface 213 that matches the curvature of the inner circumferential surface of the communication port 23 of the ball 20 which rotates to be selectively closed is formed to fit the fitting portion 210 to the seat 40. )Wow; And it protrudes to the other side of the flange 230, it is composed of a fixing part 220 which is fitted to the flow path 13 in a state in which the opening 215 is in communication.

The flange 230 is a watertight seal between the noise shield cover 200 and the sheet 40 by making stable contact with the outer surface of the sheet 40 when the noise shield cover 200 is fitted to the sheet 40. To maintain the, it is formed in a circular shape along the outer circumference of the noise shield cover 200.

The fitting portion 210 has an outer diameter corresponding to the inner diameter of the sheet 40 and is formed to protrude toward one side of the flange 230 to be fitted to the inner diameter of the sheet 40 to maintain a stable coupling state. It is comprised by the curved part 211 and the opening part 215.

The curved portion 211 is formed at the distal end of the fitting portion 210 and has a curvature corresponding to the outer surface curvature of the ball 20 so that surface contact with the outer surface of the rotating ball 20 is made.

Therefore, the curved portion 211 maintains surface contact with the outer surface of the ball 20 at all times while the noise blocking cover 200 is coupled to the seat 40.

An opening 215 is formed in the curved portion 211.

The opening 215 is a cutoff of the fluid flowing through the main body 10 by the rotation of the ball 20, and in any one direction inside the curved portion 211 along the curvature of the curved portion 211. And a central portion of the curved portion 211 is selectively closed at a central portion of the curved portion 211 where a portion of the double opening 215 is formed by the ball 20 which rotates. The curved surface 213 is formed to match the curvature of the inner circumferential surface of the communication port 23 of the ball 20 so that the fluid flowing therein can be blocked.

To be precise, the curved portion 211 is formed on one side of the curved surface 213 so that the fluid is cut off, and the opening 215 through which the fluid flows is formed on the other side.

At this time, The curved surface 213 is one side of the center of the curved portion 211 so that the fluid is cut off when the rotation angle of the communication port 23 of the ball 20 with respect to the flow path 13 of the main body 10 is 50 to 60 degrees It is preferably formed in. This is because the curvature of the inner circumferential surface of the communication hole 23 exceeds the center of the curved portion 211 when the rotation angle of the communication hole 23 of the ball 20 is 50 to 60 degrees (see FIG. 5B).

When the cutoff of the fluid is less than 50 degrees, since the opening 215 through which the fluid can flow is relatively small, it acts as a factor that hinders the flow of the fluid and causes noise, whereas the cutoff of the fluid When the temperature is 60 degrees or more, a relatively large opening 215 through which the fluid can flow is formed, which causes a problem of noise presented in the conventional ball valve 1.

In addition, the curved surface 213 is formed at a position corresponding to the angle to be cut off because the angle of rotation of the communication port 23, the time when the cutoff of the fluid is made between 50 ~ 60 degrees.

The fixing part 220 is to allow the noise blocking cover 200 to be connected to the flow path 13, and to fit the flow path 13 in a shape corresponding to the inner diameter of the flow path 13. Protruding from the other side, the opening 215 is in communication with the fluid flowing into the main body 10 flows toward the pipe connector 50 through the ball 20.

At this time, the outer surface of the fixing portion 220 of the noise blocking cover 200 when the fixing portion 220 is fitted into the flow path 13, the curved surface 213 and the ball (213) of the opening 215 At least one fixing protrusion 220a may be further formed to fix the position of the noise blocking cover 200 so that the curvature of the inner surface of the communication port 23 of FIG. 20 matches.

In addition, a fixing groove 13a corresponding to the fixing protrusion 220a may be further formed in the passage 13 when the fixing portion 220 of the noise blocking cover 200 is fitted.

The above configuration enables setting of the curved surface 213 of the opening 215 of the noise shield cover 200 to maintain the same state with respect to the curvature of the inner peripheral surface of the communication port 23 of the ball 20.

In the present embodiment, the position of the fixing protrusion 220a formed in the fixing part 220 and the fixing groove 13a formed in the flow path 13 may be mutually changed, but is not necessarily limited thereto.

On the other hand, the material of the noise shield cover 200 is preferably a synthetic resin that is easy to melt molding and excellent in workability, particularly high heat resistance according to the high temperature and smooth frictional contact with the ball 20.

The operation of the noise blocking cover 300 for the ball valve 1 in the present invention having the above configuration will be described in detail with reference to FIG. 5 as follows.

When the fluid flowing in the flow passage 13 of the ball valve 1 is cut off, first, the rotary lever 30 coupled to the ball 20 is rotated. The ball 20 receiving the rotational force of the rotary lever 30 is rotated in the direction of the arrow of Figure 5a with respect to the formation direction of the flow path 13 while the communication port 23 of the ball 20 is the curved portion 211 It is obscured to gradually close the flow passage 13 of the main body 10.

That is, the communication hole 23 is rotated in the direction of the curved portion 211 by the rotation of the ball 20 is in contact with the curved surface 213 of the curved portion 211 is to be partially covered (Fig. 5a). See arrow)

In this case, since the communication port 23 of the ball 20 is covered by the curved portion 211, the opening amount of the opening 215 through which the fluid flows also decreases, so that the flow amount of the fluid gradually decreases. Due to this, the discharge of the fluid toward the hot water pipe (P) through the pipe connector 50 is also reduced.

At this time, of course, the pressure of the fluid flowing through the communication port 23 gradually rises by the angle of rotation of the ball 20.

Subsequently, when the ball 20 continues to rotate, the area of the communication port 23 covered by the curved portion 211 gradually increases, and the opening amount of the opening 215 is relatively decreased, and the fluid at any moment is reduced. Is cut off (see FIG. 5B).

That is, as shown in FIG. 5B, the fluid is cut off at the same time as the curvature of the inner circumferential surface of the communication port 23 crosses the curved surface 213 of the opening 215 by the rotation of the ball 20. will be.

Therefore, the noise generated by the cutoff of the fluid is blocked at the time when the noise is to be generated, there is no burden for the noise can be installed safely in the house.

As described so far, the noise shield cover 200 for the ball valve 1 of the present invention has an effect that the original blocking of the noise generated when the ball valve 1 is cut off.

While the invention has been shown and described with reference to certain preferred embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit of the invention.

For example, the type of the ball valve (1) on which the noise blocking cover 200 is mounted, the method and material of fixing the noise blocking cover 200, the shape and position of the fixing protrusion 220a and the fixing groove 13a, and The number, shape and position of the curved surface 213 cannot be used as a criterion for determining the technical scope of the present invention, and only by the claims.

1: Ball Valve 10: Body
13: Euro 13a: fixing groove
20: ball 23: communication port
30: rotating lever 40: sheet
50: piping connection 200: noise shield cover
210: fitting portion 211: curved portion
213 curved surface 215 opening
220: fixing part 220a: fixing protrusion
230: flange P: hot water pipe

Claims (5)

A main body 10 having a flow path 13 through which a fluid flows, a ball 20 provided on the flow path 13 of the main body 10 to block a flow in and out of the fluid, and In the ball valve 1 composed of seats 40 provided on both sides of the ball 20,
Between the ball 20 and the flow path 13 is formed in the seat 40 and the main body 10 so that the noise of the fluid is blocked when the fluid is cut off by the rotation of the ball 20 Between the stepped noise blocking cover 200 is interposed,
The noise blocking cover 200,
A flange 230 formed along a circumference of an outer circumferential surface of the noise shield cover 200; A curved portion 211 protruding from one side of the flange 230 and fitted to the sheet 40, formed on a protruding end surface, and having a curvature in surface contact with an outer surface of the ball 20, and the ball 20. Opening 215 having a curved surface 213 that matches the curvature of the inner circumferential surface of the communication port 23 of the ball 20 so that a portion of the inner central region of the curved portion 211 can be selectively closed by the rotation of Formed fitting portion 210; And a fixing part 220 protruding to the other side of the flange 230 and fitted into the flow path 13 while the opening 215 is in communication with the flange 230. Noise shield cover for the ball valve (1), characterized in that configured to include a. The method of claim 1,
The curved surface 213 is the center of the curved portion 211 so that the fluid is cut off when the rotation angle of the communication port 23 of the ball 20 with respect to the flow path 13 of the main body 10 to 50 ~ 60 degrees Noise blocking cover for the ball valve (1), characterized in that formed on one side based on. The method according to claim 1 or 2,
On the outer circumferential surface of the fixing part 220, the curved surface 213 of the opening 215 and the inner circumferential surface of the communication hole 23 of the ball 20 when the fixing part 220 is fitted into the flow path 13. Noise barrier cover 200 for the ball valve (1), characterized in that at least one or more fixing protrusions (220a) is further formed to match the curvature. The method of claim 3,
When the fixing portion 220 of the noise shield cover 200 is fitted in the flow path 13 for the ball valve 1, characterized in that the fixing groove 13a corresponding to the fixing projection 220a is further formed. Noise barrier cover (200). The method according to claim 1 or 2,
Noise blocking cover 200 for the ball valve (1), characterized in that the material of the noise blocking cover 200 is a synthetic resin.

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