KR101879375B1 - Linear Motion Glove Valve - Google Patents

Abstract

The valve disk is linearly reciprocated in a straight line along the axial direction of the valve case in a valve case in which a flow path extending from an inlet to an outlet is arranged in a straight line along the axial direction, A linear globe valve according to the present invention is characterized in that it has an inlet and an outlet through which fluids flow into the front end and the rear end, respectively, A valve case having an outlet through which the fluid is discharged to be opposed to each other, and a flow path communicating with the inlet and the outlet is formed linearly along the axial direction; A valve disc installed in the valve case to linearly reciprocate along an axial direction of the valve case to open and close the flow path of the valve case; A valve stem installed to pass through the side surface of the valve case and rotating; And valve operating means for converting the rotational motion of the valve stem into a linear motion of the valve disc.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a linear-

The present invention relates to a globe valve, and more particularly, to a globe valve, in which a valve disc is linearly reciprocated in a straight line along an axial direction of a valve case in a valve case in which a flow path extending from an inlet to an outlet is arranged in a straight line along the axial direction The present invention relates to a linear globe valve capable of opening and closing a flow path so that the direction of a fluid flowing through an inlet of a valve case can be flowed in a straight line without being changed.

The globe valve is the most widely used valve type currently used for flow control purposes. It is installed on a pipeline through which high-pressure fluid flows and is used to open and close the flow path. The valve material is made of bronze, cast iron, Copper alloy, and alloy steel are used.

The conventional globe valve is a glove valve having an inlet 11 and an outlet 13 of a valve case which are located on the same straight line and which correspond to approximately the middle point between the inlet 1 and the outlet 2 A partition wall 3 is formed on the partition wall 3 and a disc seat 5 on which a valve disc 4 is mounted is formed on the partition wall 3 while a valve stem 6 is provided on the disc seat 5 And is formed at a right angle to the disk sheet 5.

In such a conventional glove valve, since the disk 4 moves upward to open the flow path, the flow path is narrowed from above the opening of the disk sheet 5, and the fluid introduced from the inlet 1 side flows into the disk sheet 5, a strong vortex is formed and a back pressure space is formed at the rear side of the disk 4, so that the flow of the fluid is not smooth as a whole, And the body of the valve becomes large.

Korean Patent No. 10-0928419

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and it is an object of the present invention to provide a valve case in which, in a valve case in which a flow path extending from an inlet to an outlet is arranged in a straight line along the axial direction, So that the fluid flowing through the inlet of the valve case can be flowed in a straight line without being changed in direction, thereby minimizing the pressure drop of the fluid due to the vortex formation, In the case of a straight globe valve.

According to an aspect of the present invention, there is provided a straight globe valve comprising: an inlet through which a fluid flows into a front end portion and an outlet through which a fluid is discharged; The valve case being formed in a straight line along the axial direction; A valve disc installed in the valve case to linearly reciprocate along an axial direction of the valve case to open and close the flow path of the valve case; A valve stem installed to pass through the side surface of the valve case and rotating; And valve operating means for converting the rotational motion of the valve stem into a linear motion of the valve disc.

According to the present invention, the flow path in the valve case is formed linearly along the axial direction, and the valve disc opens and closes the flow path while linearly reciprocating in the axial direction in the valve case to open and close the flow path. There is an advantage that the pressure drop of the fluid due to the formation can be minimized.

Further, since the valve actuating means for converting the rotational force of the valve stem into the linear motion of the valve disk is formed on the inside of the mount member by the bevel gear, the actuating shaft, the movable block, etc., the resistance of the fluid due to the valve actuating means can be minimized , There is an advantage that the overall size of the globe valve can be reduced.

1 is a cross-sectional view showing an example of the construction of a general globe valve.
2 is an exploded perspective view showing a linear globe valve according to an embodiment of the present invention.
Fig. 3 is a front view of the linear globe valve shown in Fig. 2, with the valve seat removed. Fig.
4 is a rear view of the linear globe valve shown in Fig.
5 is a projection view of a valve disk constructed in the linear globe valve shown in Fig.
6 is a cross-sectional view of the linear globe valve shown in Fig. 2, showing a state in which the flow path is closed.
Fig. 7 is a cross-sectional view of the linear globe valve shown in Fig. 2, showing a state in which the flow path is opened.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a linear globe valve according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

2 to 7, a linear globe valve according to an embodiment of the present invention includes a valve case 10 connected to a pipe through which fluid flows, (20) for opening and closing the flow path, a valve stem (30) vertically installed to the valve case (10), a valve stem And a mount member (40) provided at the center of the valve case (10).

The valve case 10 has an inlet 11 through which the fluid flows into the front end portion and an outlet 12 through which fluid is discharged from the front end portion and a rear end portion of the valve case 10, And the flow path 13 communicating with the flow path 13 is linearly formed along the axial direction (forward and backward direction).

A ring-shaped valve seat 15 is provided at a rim portion of the inlet 11 of the valve case 10 so as to be in close contact with a rim portion of the valve disc 20. Although not shown in the drawing, the valve seat 15 may be provided with a sealing material made of a flexible resin material such as rubber or silicone.

The valve disc 20 is installed in the front portion of the valve case 10 so as to linearly reciprocate along the axial direction of the valve case 10 to open and close the inlet 11 of the valve case 10, To open and close the flow path 13 of the gas-liquid separator. The valve disc 20 has a conical shape increasing in diameter from the front to the rear and the inclined side surface portion of the valve disc 20 is connected to the valve seat 15 formed at the inlet 11 of the valve case 10 The inlet 11 is closed while being closely attached.

The rim of the rear end portion of the valve disc 20 is preferably a curved surface for preventing a vortex from being generated when the fluid passes.

In the center of the front surface of the valve disc 20, a receiving groove 21 is recessed rearward and a pressure reducing plate (not shown) is provided inside the receiving groove 21 to elastically move backward against the fluid, (22) is provided so as to be movable in the front-rear direction. A spring (23) for elastically supporting the pressure sensitive plate (22) against the valve disc (20) is provided in the receiving groove (21). When the pressure of the fluid is applied to the pressure sensitive plate 22 by applying an elastic force to the pressure sensitive plate 22 forward, the spring 23 elastically deforms to absorb the pressure of the fluid. When the pressure of the fluid is reduced, 22 are automatically moved forward to return to their original positions.

In order to prevent the pressure sensitive plate 22 from being released to the outside of the receiving groove 21 of the valve disk 20 by the elastic force of the spring 23, Protruding in the radial direction, and the receiving groove 21 is formed with a protrusion guide groove 25 in which the release preventing protrusion 24 is inserted and guided, extending in the front-rear direction. In this embodiment, the separation preventing protrusion 24 has a substantially triangular shape, but it is needless to say that the separation preventing protrusion 24 can be formed in various forms.

The valve stem 30 is installed so as to vertically penetrate the side surface of the valve case 10 and is rotated by a person or a driving device to perform an opening and closing operation of the valve disc 20. Preferably, the upper end of the valve stem 30 is provided with a handle 31 so that the handle 31 can be easily held by a person.

The lower end of the valve stem 30 is positioned inside the mount member 40 through the mount member 40.

The mount member 40 has a cylindrical shape with an open front face, and is fixed to the center of the valve case 10. The mount member 40 is fixed to the valve case 10 by a plurality of fixing bars 42 fixed to the valve case 10.

Valve operating means for converting the rotational motion of the valve stem 30 into linear motion of the valve disc 20 is provided inside the mount member 40.

In this embodiment, the valve actuation means includes an actuating shaft 51 extending and extending along the axial direction of the valve case 10 and having a thread 52 formed at the front thereof, And a bevel gear 53 installed at a rear portion of the actuating shaft 51 for converting the rotational motion of the valve stem 30 into a rotational motion of the actuating shaft 51, A movable block 54 coupled to the movable block 20 and having a central thread formed with a female thread 55 screwed to the thread 52 of the actuating shaft 51; And a spline portion for restricting the swash plate 54 from moving in the axial direction and preventing rotational movement.

The spline portion includes a key groove 56 extending along the axial direction on the inner circumferential surface of the front portion of the mount member 40 and a key groove 56 protruding from the outer surface of the movable block 54 and moving along the key groove 56. [ (57) (key).

Therefore, when the valve stem 30 rotates, the rotational force of the valve stem 30 is transmitted to the actuating shaft 51 by the bevel gear 53 to rotate the actuating shaft 51, The movable block 54 which is connected to the front portion of the valve disk (not shown) by the helical connection between the screw thread 52 and the female thread 55 linearly moves in the front-rear direction (axial direction) with respect to the mount member 40, 20 are moved linearly in the forward and backward directions.

The thus constructed linear globe valve of the present invention operates as follows.

6, when the outer surface of the valve disc 20 is in close contact with the valve seat 15 of the inlet 11 of the valve case 10 to close the oil passage, The rotary motion of the valve stem 30 is transmitted to the operation shaft 51 through the bevel gear 53 as described above by holding the handle 31 at the upper end of the valve stem 30 and turning it in one direction So that the operating shaft 51 rotates.

A screw thread 52 is formed on a front portion of the operation shaft 51. A center portion of the movable block 54 is formed with a female thread 55. The movable block 54 is connected to a key 57 The movable block 54 is linearly moved rearward with respect to the mount member 40 as the actuating shaft 51 rotates in one direction.

The valve disc 20 coupled with the movable block 54 moves rearward together with the movable block 54 so that the inlet 11 is opened and the fluid flows in through the inlet 11, Flows along the flow path (13) and is discharged through the outlet (12).

When the user wishes to close the valve, if the user rotates the handle 31 in the direction opposite to the previous valve opening operation, the valve stem 30 rotates in the opposite direction to the previous direction, and the rotational force of the valve stem 30 Is transmitted to the operation shaft 51 through the bevel gear 53, and the operation shaft 51 is rotated in the direction opposite to the previous direction.

7, the movable block 54 is moved forward with respect to the mount member 40, and the valve disc 20 is moved forward to closely contact the valve seat 15 of the inlet 11 Thereby closing the flow path.

At this time, the fluid pressure is applied to the front surface of the valve disc 20, and the pressure sensitive plate 22 on the front surface of the valve disc 20 overcomes the elastic force of the spring 23 and moves backward, Absorbed. Therefore, the water hammer due to the high fluid pressure can be prevented.

As described above, according to the present invention, in the valve case 10, the flow path 13 is formed linearly along the axial direction, and the valve disc 20 linearly reciprocates along the axial direction in the valve case 10 The opening and closing of the flow path has an advantage that the pressure drop of the fluid due to vortex formation can be minimized when the flow path is opened and the fluid flows.

The valve operating means for converting the rotational force of the valve stem 30 into the linear motion of the valve disc 20 is constituted by the bevel gear 53, the operating shaft 51, the movable block 54, The resistance of the fluid due to the valve actuation means can be minimized and the overall size of the globe valve can be reduced.

While the present invention has been particularly shown and described with reference to exemplary 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 and scope of the present invention as defined by the appended claims. And it is to be understood that such modified embodiments belong to the scope of protection of the present invention defined by the appended claims.

10: valve case 11: inlet
12: Exit 13: Euro
15: valve seat 20: valve disc
21: receiving groove 22: pressure sensitive plate
23: spring 30: valve stem
31: handle 40: mount member
51: operating axis 52:
53: bevel gear 54: movable block
55: female thread 56: keyway
57: Key

Claims (11)

An inlet 11 through which the fluid flows into the front end portion and an outlet port 12 through which the fluid is discharged and a flow path 13 communicating with the inlet 11 and the outlet 12 are formed in the front end portion and the rear end portion, A valve case 10 formed linearly along the axial direction;
A valve disc 20 installed in the valve case 10 so as to linearly reciprocate along the axial direction of the valve case 10 to open and close the flow path 13 of the valve case 10;
A valve stem 30 installed to penetrate through the side surface of the valve case 10 and rotating;
Valve operating means for converting the rotational motion of the valve stem (30) into a linear motion of the valve disc (20);
/ RTI >
The valve actuation means includes an actuating shaft 51 extending and extending along the axial direction of the valve case 10 and having a thread 52 on the front portion thereof, And a bevel gear 53 provided at a rear portion of the operation shaft 51 and adapted to convert rotational motion of the valve stem 30 into rotational motion of the operation shaft 51, A movable block 54 formed at the center thereof with a female thread 55 screwed to the thread 52 of the actuating shaft 51 and a movable block 54 fixed to the valve case 10, And a spline portion which moves only in the axial direction and restrains rotation from being performed,
The valve actuation means is installed in a hollow tube-like mount member (40) provided coaxially inside the valve case (10)
The spline portion includes a key groove 56 extending along the axial direction on the inner circumferential surface of the front portion of the mount member 40 and a key groove 56 protruding from the outer surface of the movable block 54 and moving along the key groove 56. [ (57) a straight globe valve comprising (key). The linear globe valve according to claim 1, wherein the valve disc (20) opens and closes the flow path (13) of the valve case (10) by opening and closing an inlet (11) of the valve case (10). delete delete delete 3. The linear globe valve according to claim 1 or 2, wherein the valve disc (20) has a conical shape increasing in diameter from front to back. 7. The linear globe valve according to claim 6, wherein the rim of the rear end of the valve disc (20) is curved. The valve disc (20) according to claim 6, wherein a receiving groove (21) is formed at a central portion of a front surface of the valve disc (20), and a fluid is applied to the inside of the receiving groove And a spring 23 for applying an elastic force to the pressure sensitive plate 22 forward is provided on the rear surface of the pressure sensitive plate 22. The pressure sensitive pressure sensitive plate 22 is provided movably in the front and rear direction, Wherein the valve body is a valve body. 9. The apparatus according to claim 8, wherein a release preventing protrusion (24) is formed in the outer peripheral portion of the pressure sensitive plate (22) so as to protrude in a radial direction, and the release preventing protrusion (24) And the guide groove (25) is formed to extend in the front-rear direction. An inlet 11 through which the fluid flows into the front end portion and an outlet port 12 through which the fluid is discharged and a flow path 13 communicating with the inlet 11 and the outlet 12 are formed in the front end portion and the rear end portion, A valve case 10 formed linearly along the axial direction;
A valve disc 20 installed in the valve case 10 to linearly reciprocate along the axial direction of the valve case 10 to open and close the inlet 11 of the valve case 10;
A valve stem 30 installed to penetrate through the side surface of the valve case 10 and rotating;
A hollow tube-shaped mount member 40 provided coaxially with the center of the valve case 10;
An actuating shaft 51 extending from the inside of the mount member 40 and extending in the axial direction and having a thread 52 formed at a front portion of the actuating shaft 51; A bevel gear 53 installed at an end of the actuating shaft 51 and adapted to convert rotational motion of the valve stem 30 into rotational motion of the actuating shaft 51, A movable block 54 having a front end portion coupled to the valve disc 20 and having a central thread formed with a female thread 55 screwed to the thread 52 of the actuating shaft 51, A key groove 56 formed to extend along the axial direction on the inner peripheral surface of the front portion of the mount member 40 and a key 57 protruding from the outer surface of the movable block 54 and moving along the key groove 56, (30) to the valve disc (20), the valve stem A valve operating means for converting the valve operating means;
Wherein the first and second valves are connected to each other. The valve disc (20) according to claim 10, wherein a receiving groove (21) is formed at a central portion of a front surface of the valve disc (20), and a fluid is applied to the inside of the receiving groove And a spring 23 is provided on the rear surface of the pressure sensitive plate 22 to apply an elastic force to the pressure sensitive plate 22 forward against the valve disk 20 And a detachment protrusion 24 protruding radially from the outer circumference of the pressure sensitive plate 22. The detent protrusion 24 is inserted into the protrusion guide groove 25 Is formed so as to extend in the front-rear direction.

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