KR20180101762A - Dome Type Valve - Google Patents

Abstract

The present invention relates to a dome valve that elastically adheres to a dome opening and closing portion rotating in a state where a metal sheet is disposed inside an elastic sheet to protect the elastic sheet from powder. The present invention includes a dome opening and closing portion including a dome disk having a spherical front surface and an annular support rim having a front surface having the same spherical surface as the front surface of the dome disk; a flange portion fixing the valve main body to a conduit, in which an inlet formed through the center has both ends respectively connected to the conduit and the valve main body, a first fixing groove is formed around the inlet on the valve main body side, and a second fixing groove is formed outside the first fixing groove; an elastic sheet portion provided in the second fixing groove and sealing the clearance between the inlet and the dome disk through expansion when the dome disk is disposed at the inlet by rotation of the dome opening and closing portion; and a metal sheet portion including a spring fixed to the first fixing groove and a metal sheet fixed to the spring. In the course of rotation of the dome opening and closing portion, the metal sheet continuously adheres to the front surfaces of the dome disk and the support rim by the elastic force of the spring. The dome disk is disposed at the inlet when the inlet is closed, and the support rim is disposed at the inlet when the inlet is opened.

Description

A dome valve {Dome Type Valve}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a dome valve, and more particularly, to a dome valve that elastically adheres to a rotating dome opening and closing portion in a state where a metal sheet is disposed radially inward of the elastic sheet to protect the elastic sheet from powder.

A valve is a device installed in a pipeline (or a container entrance) to control fluid flow, flow rate, and pressure. Typical types of valves include ball valves, butterfly valves, gate valves, globe valves and check valves .

In the ball valve and the butterfly valve, the opening and closing parts for closing the pipe are respectively formed in a ball shape and a disk shape. In the state where one side of the opening and closing part is fixed to the rotation axis, Thereby opening and closing the channel.

The ball valve and the butterfly valve are characterized in that the opening and closing part is provided on the rotating shaft so that the channel can swiftly open and close as compared with a gate valve or a globe valve that opens and closes the channel by advancing and retracting through the helical motion of the rotating shaft.

However, the volume and weight of the ball opening / closing portion necessary for closing the pipe having the same inner diameter are larger than those of the disk opening and closing portion. As a result, when the ball is installed in a pipe having a large diameter, the rotational inertia of the ball opening / closing part is intensified, so that it is difficult to control the opening / closing part quickly and precisely.

On the other hand, in the case of the butterfly valve, since the disk opening / closing part is provided with a lighter plate than the ball opening / closing part with respect to the pipe having the same inner diameter, it is possible to control the opening / closing part with high precision. However, since the fluid passing through the disk opening / closing part is disturbed, There is a problem that vibration and noise are easily generated.

In addition, there is a problem in that it is difficult to design the shape of the sealing portion and the sealing property is deteriorated due to the structural limitation that the sealing portion provided in the inner wall of the channel (or the edge of the opening and closing portion of the disk) overlaps the rotation axis provided through the channel.

The dome valve improves the disadvantages of the ball valve and the butterfly valve. Instead of the ball opening / closing part, the dome valve constitutes a dome-shaped opening / closing part corresponding to a part of the ball. In addition, the rotating shaft and the sealing portion are provided in the pipe line in a state of being separated without overlapping each other, so that the sealing property can be achieved.

However, as in the case of the ball valve, the dome valve may slip in the opening and closing part, and may come into contact with or be separated from the sealing part, thereby worn the sealing part.

A dome valve having an expansion-contraction type valve seat is disclosed in Korean Registered Utility Model No. 20-0346861 (registered on March 24, 2004) in order to solve the problem of abrasion of the sealing portion.

1, the dome valve is provided with a dome opening / closing part 3 on a rotating shaft 2 controlled by an actuator 1, The expansion-contraction type valve seat 4 is provided on the inner wall of the valve where the rim of the dome opening / closing part 3 is located when the inflow hole 5 is closed.

When the inflow hole 5 is to be closed, the dome opening / closing part 3 is first rotated and placed on the inflow hole 5, then air is injected through the air tube 6 and the inflation- Thereby sealing the gap 7 between the dome opening and closing part 3 and the inner wall.

Conversely, when opening the inflow hole 5, the air injected into the inflatable-shrinkable valve seat 4 is first removed and the inflated-deflated valve seat 4 is resiliently restored to the dome opening- And then the dome opening / closing part 3 is reversely rotated so that the inflow hole 5 is opened.

Therefore, the dome opening / closing part 3 for opening / closing the dome opening / closing part 3 and the expansion-contraction type valve seat 4 without slippage is rotated / reversed, thereby preventing the expansion-contraction type valve seat 4 from being abraded .

However, in the case of the dome valve provided therein, the powder-like powder of the steel mill is transported through the pipeline. In this case, just before the expansion-contraction type valve seat 4 is brought into close contact with the dome opening and closing part 3, 7, and wear of the expansion-contraction type valve seat 4 occurs in this process.

Particularly, in the case of pipelines for transporting the powder remotely by using a large pressure difference, a large differential pressure is applied in the process of opening and closing the dome valve, thereby increasing the abrasion and frequently changing the expansion- There is a problem.

KR 20-0346861 Y1 2004.03.24.

A problem to be solved by the present invention is to provide a dome valve that effectively prevents the inflow of powder to prevent abrasion of the elastic sheet.

The dome valve of the present invention for solving the above-mentioned problems comprises a dome opening / closing part including a dome disk having a spherical front surface and an annular shape and having a supporting rim whose front surface has the same spherical surface as the front surface of the dome disk; Wherein an inlet port formed to pass through the center of the valve body is connected to the conduit and the valve body, a first fixing groove is formed around the inlet port on the valve body side, A flange portion having a second fixing groove formed on an outer side of the groove; An elastic sheet portion provided in the second fixing groove and sealing the clearance between the inlet and the dome disk through expansion when the dome disk is disposed at the inlet by rotation of the dome opening and closing portion; And a spring fixed to the first fixing groove and a metal sheet fixed to the spring. In the course of the rotation of the dome opening / closing part, the metal sheet is continuously brought into close contact with the front surface of the dome disk and the supporting rim by the elastic force of the spring Wherein the dome disk is disposed at an inlet port and the support rim is disposed at an inlet port when the inlet port is closed.

The dome valve of the present invention may further include a first flange fixed to the pipe and a second flange fixed to the valve body at the flange portion, And a groove is formed.

In the dome valve of the present invention, a plurality of the springs are equally spaced and fixed radially to the first fixing groove, and the metal sheet is fixed to the first fixing groove on one side of the spring, 1 protruding out of the fixing groove.

In addition, the dome valve of the present invention is further characterized in that a fixing groove into which one end of the spring is inserted is further formed on a bottom surface of the first fixing groove.

According to the dome valve of the present invention, it is possible to prevent the wear of the elastic sheet through the structure for protecting the elastic sheet disposed on the outside in a state where the metal sheet is in close contact with the rotating dome opening and closing part, and the annular metal sheet has the same spherical surface The dome-shaped disc or the support rim is worn in a state in which it is in close contact with the dome disc.

1 is a cross-sectional view of a prior art dome valve;
FIG. 2 is a sectional view showing a state in which the inlet is closed in the dome valve of the present invention. FIG.
3 is a sectional view showing a state in which the inlet is opened in the dome valve of the present invention.
4 is a perspective view showing a dome opening / closing part of the present invention.
5 is a cross-sectional view illustrating an essential structure of the present invention.
6 is a perspective view for explaining a process of the metal sheet of the present invention being worn.
7 is a schematic diagram for exaggerating the state in which the metal sheet on which wear has progressed is in close contact with the dome opening / closing part for convenience of explanation;

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 2 is a cross-sectional view showing a state in which the inlet is closed in the dome valve of the present invention, FIG. 3 is a sectional view showing a state in which the inlet is opened in the dome valve of the present invention, And FIG. 5 is a cross-sectional view explaining the main configuration of the present invention (the parts denoted by reference numerals 11 and 13 are arranged opposite to those shown in FIGS. 2 to 4 for convenience of explanation).

2 to 5, the present invention is a dome valve comprising a dome opening / closing part 10 rotatably installed in a valve body A of a dome valve, C, an elastic sheet portion 30 provided on the flange portion 20, and a metal sheet portion 40. The flange portion 20 includes a flange portion 20,

The dome opening / closing unit 10 is configured to open / close the inlet C through forward / reverse rotation. The dome opening / closing unit 10 includes a dome disposed at the inlet C at the time of closing, A disk 11, a support rim 13 extending from one side of the dome disk 11 and disposed at the inlet C at the time of opening and a shaft hole 15 formed for forward / reverse rotation.

The front surface of the dome disk 11 is formed in a spherical shape, and a reinforcing rib is formed on the rear surface thereof in order to strengthen the strength.

The support rim 13 is formed in an annular shape having a through hole 13a connected to the inlet C when the inlet C is opened at the center thereof and the fluid (powder) passing through the through hole 13a is not disturbed And is made to have the same diameter as the inlet (C).

The metal sheet 43 of the metal sheet portion 40 which will be described later is brought into close contact with the dome disk 11 by the spring 41 so that the elastic sheet portion 30 of the elastic sheet portion 30, The metal sheet 43 is released or excessively protruded by the elastic force of the spring 41 when the inlet C is opened, The inlet C collides with the edge of the dome disk 11 when the inlet C is closed again.

The main body of the supporting rim 13 prevents this protrusion of the metal sheet 43 when the inlet C is opened while the main body of the supporting rim 13 covers the elastic sheet 31 together with the metal sheet 43 as shown in Fig. And serves to protect the elastic sheet 31 from the powder passing through the through hole 13a.

To this end, the width w of the support rim 13 is made to have a length such that the metal sheet 43 and the elastic sheet 31 can be disposed together on the front surface.

The process of replacing the dome disk 11 and the support rim 13 in the metal sheet 43 is preferable in terms of preventing wear of the metal sheet 43 because the spring 41 is made to be silent without displacement. The rim 13 is made to have the same spherical surface as the front surface of the dome disk 11.

The shaft hole 15 is formed at the upper and lower vertices of the dome opening and closing part 10 and is fixed to the driving rotary shaft b and the driven rotary shaft b 'which are provided through the valve body A, respectively. The driving rotation axis b is connected to the actuator and is rotated by the control of the actuator. The forward / reverse rotation of the dome opening / closing unit 10 and the opening / closing of the inlet C are performed through the rotation.

The flange portion 20 has a structure for fixing the dome valve to the pipeline. The flange portion 20 has an inlet C through which a pipeline and the valve body A are connected to each other at the center thereof, and is fixed to the pipeline around the inlet C The first flange 21 and the second flange 23 fixed to the valve body A and the second flange 23 for fixing the elastic sheet portion 30 and the metal sheet portion 40, The first fixing groove 25 and the second fixing groove 27 are formed.

The first fixing groove 25 and the second fixing groove 27 are arranged concentrically with respect to the inflow port C and air is supplied to the elastic sheet portion 30 in the second fixing groove 27 An air hole 29 for injection is formed.

The elastic sheet portion 30 is configured to seal the gap g between the second flange 23 and the dome disk 11 through expansion when the dome disk 11 is disposed at the inlet C for closing An elastic sheet 31 which is brought into close contact with or separated from the dome disk 11 by contraction and expansion and an elastic sheet ring 33 which fixes the elastic sheet 31 to the flange portion 20.

The elastic sheet 31 is usually made of an elastic material such as rubber and has a contact surface 31a which is in close contact with the dome disk 11 upon expansion and a fixing groove 31b which receives the elastic seat ring 33 on the other side. Is formed.

The elastic seat ring 33 has a structure for fixing the elastic sheet 31 to the second fixing groove 27. The elastic seat ring 33 is made of metal for firm fixing and is arranged radially around the body, A plurality of air holes 33a are formed.

The other end of the elastic seat ring 33 is fixed to the second fixing groove 27 in a state where one side of the elastic seat ring 33 is inserted into the fixing groove 31b and a dome disk 11 is placed in the inlet C for closing Air is injected into the fixing groove 31b through the air hole 29 and the air hole 33a under the control of the actuator so that the elastic sheet 31 expands and the contact surface 31a is brought into close contact with the dome disk 11 do.

Conversely, when the inlet C is opened, the air introduced into the fixing groove 31b is discharged by the control of the actuator just before the dome disk 11 is disengaged from the inlet C, so that the elastic sheet 31 is resilient (Contracted) so that the contact surface 31a and the dome disk 11 are separated from each other.

The metal sheet portion 40 is disposed inside the elastic sheet portion 30 in the radial direction and is in close contact with the dome opening and closing portion 10 and includes a spring 41 fixed to the first fixing groove 25, And a metal sheet 43 which is elastically supported on the dome opening / closing part 10 and is brought into close contact with the dome disk 11 or the support rim 13 with zero gap.

A plurality of the springs 41 are radially disposed and fixed to the first fixing grooves 25. In order to stably protect the elastic sheet 31 of the metal sheet 43, It is required that the metal sheet 43 should be kept upright with respect to the bottom surface of the metal sheet 43 and the dome opening /

5, a fixing groove 25a into which one end of the spring 41 is inserted may be further formed on the bottom surface of the first fixing groove 25 in order to hold the spring 41 upright A plurality of the fixing grooves 25a corresponding to the number of the springs 41 are equally spaced from each other for uniform contact of the metal sheet 43. [

The metal sheet 43 is formed in an annular shape which can be inserted into and out of the first fixing groove 25. A groove 43a for receiving one end of the spring 41 is formed at one side of the metal sheet 43, And is brought into close contact with the dome disk 11 or the supporting rim 13 in accordance with the forward / reverse rotation of the dome opening /

Therefore, when the inlet C is opened, the metal sheet 43 cooperates with the support rim 13 to cover the elastic sheet 31 with respect to the through-hole 13a, so that the powder passing through the through- (31) is prevented from being worn.

Immediately before the elastic sheet 31 is brought into close contact with the dome disk 11 at the time of closing the inlet C, the pressure difference between the inside and the outside of the inlet C, which is bounded by the dome disk 11, The metal sheet 43 is brought into close contact with the dome disk 11 by the elastic force of the spring 41 in a state in which the metal sheet 43 is disposed inside the elastic sheet 31, ) Is prevented from being worn.

The resilient force of the spring 41 is required to be such an elastic force that the metal sheet 43 is not separated from the dome disk 11 due to the high pressure applied by the metal sheet 43 for transporting the fluid. Corresponds to an elastic force which is relatively small as compared with the elastic force required to seal the dome disk 11.

The dome valve of the present invention is constructed in such a manner that the elastic sheet 31 which is susceptible to abrasion is provided with a double metal structure 43 which protects the valve inlet C through the elastic sheet portion 30, . ≪ / RTI >

Here, the spring seat 41 having a large elastic force is employed so that the elastic sheet portion 30 is omitted and the metal sheet 43 also has a sealing property, so that the metal sheet portion 40 can open and close the inlet C alone I can think.

However, when the metal sheet portion 40 is composed solely of the metal sheet 43, the adhesion strength between the metal sheet 43 and the dome disk 11 increases the speed at which the metal sheet 43 wears. Further, since the frictional resistance of the metal sheet 43 is large when the dome disk 11 rotates, an actuator having a large output is required and it is difficult to control the dome opening / closing unit 10 quickly and accurately.

The dome disc 11 is formed of a spherical surface and the metal sheet 43 is wound around the metal sheet 43. In this case, It is possible to prevent the powder from flowing into the clearance gap g for a considerable period of time even if the wear progresses.

FIG. 6 is a perspective view for explaining a process of abrasion of the metal sheet according to the present invention, and FIG. 7 is an outline view for exaggerating the state where the worn metal sheet is in close contact with the dome opening / 6 and 7, the interdigitations of the reference numerals 11 and 13 are shown opposite to those shown in Figs. 2 to 4 for convenience of explanation).

6 and 7, the reference numerals D, E, and F indicate that the inlet C is closed from the closed position to the open position, E and f of the metal sheet 43 contact the surface of the dome opening and closing part 10 while the points e and e of the metal sheet 43 indicate the equator of the dome opening and closing part 10 Equator (x) means the right and left ends in contact with (x).

The length of each point of the metal sheet 43 which is in contact with the dome opening and closing part 10 becomes shorter toward the left end e 'from the apex of the right end e. As a result, as the wear progresses, the metal sheet 43 is deformed into an inclined shape in which the width w 'of the right end e is shortened as shown in FIG.

However, since the front surface of the dome disk 11 is formed of a spherical surface, even if the inclined metal sheet 43 is closely contacted thereto, the dome disk 11 can stably maintain close contact with the dome disk 11, thereby preventing powder from entering into the gap g .

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

10: Dome opening /
11: Dome disc 13: Support rim
15: Slippery
20: flange portion
21: first flange 23: second flange
25: first fixing groove 27: second fixing groove
29: Air hole
30: elastic sheet portion
31: Elastic sheet 33: Elastic sheet ring
40: metal sheet part
41: spring 43: metal sheet

Claims (4)

A dome disk 11 which is rotatably provided in the valve body A of the dome valve and has a spherical surface and an annular shape and whose front surface is the same as the front surface of the dome disk 11, (10);
The inlet port C formed at the center of the valve body A is connected to the valve body A and both ends thereof are connected to the inlet A of the valve body A, A flange portion 20 having a first fixing groove 25 formed around the first fixing groove 25 and a second fixing groove 27 formed outside the first fixing groove 25;
When the dome disk 11 is disposed at the inlet C by the rotation of the dome opening and closing part 10, the gap C between the inlet C and the dome disk 11 an elastic sheet portion 30 which seals through the expanding portion g; And
A spring 41 fixed to the first fixing groove 25 and a metal sheet 43 fixed to the spring 41. During the rotation of the dome opening and closing part 10, A metal sheet portion 40 continuously attached to the front surface of the dome disk 11 and the support rim 13 by the elastic force of the metal plate 41;
/ RTI >
Wherein the dome disk (11) is arranged at an inlet (C) when the inlet (C) is closed and the support rim (13) is arranged at an inlet (C) when opened.
The method according to claim 1,
The flange portion 20 further includes a first flange 21 fixed to the pipe and a second flange 23 fixed to the valve body A, Wherein the fixing groove (25) and the second fixing groove (27) are formed.
The method according to claim 1,
A plurality of the springs 41 are radially arranged and fixed to the first fixing groove 25 at equal intervals and the metal sheet 43 is fixed to the first fixing groove 25 at one side by the spring 41 And the other side protrudes outside the first fixing groove (25) in a fixed state.
The method according to claim 1,
And a fixing groove (25a) into which one end of the spring (41) is inserted is further formed on a bottom surface of the first fixing groove (25).

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