KR101902226B1 - Valve shutter with malfunction prevention funcition - Google Patents

Abstract

The present invention relates to a valve shutter having a malfunction preventing function that may improve safety by certainly closing a valve of a cylinder during an accident, such as explosion of gas or gas poisoning, due to leakage of a high pressure gas in the cylinder by opening and closing a valve of the cylinder in an automatic manner to improve convenience of a user and increasing an elastic force of a spring. The valve shutter includes a spring, a power transmission member including a plurality of gears, a valve knob rotation member coupled to a valve knob of the valve formed in a cylinder and configured to open and close the valve, and a first operation unit configured to add a primary elastic force to a spring by supplying air to an air motor before being coupled to the cylinder and a second operation unit for opening the valve by rotating the valve knob. The present invention provides a valve shutter having a malfunction preventing function that may improve convenience of a user by automating all opening/closing operations of a valve and may improve safety by certainly locking the valve by using an elastic force of a spring by preventing opening of the valve before the elastic force is added to the spring.

Description

[0001] The present invention relates to a valve shutter with malfunction prevention function,

The present invention improves the convenience of the user by opening and closing the valve of the cylinder by an automatic method and enhances the elasticity of the spring to reliably close the valve of the cylinder in case of gas explosion due to leakage of high pressure gas in the cylinder, To a valve shutter to which a malfunction prevention function is applied.

Generally, a pressure gas cylinder (hereinafter referred to as a cylinder) is filled with various gases.

Particularly, cylinders used for semiconductor processing are filled with various kinds of gases of about 250 kinds.

These gases are supplied in the semiconductor process and cause a chemical reaction by the combination of gases. Hundreds and thousands of cylinders filled with gas are controlled through legal regulation with a separate room called a gas supply device.

For this purpose, the gas filled in the cylinder is a fatal component such as flammability, corrosiveness and inertness, so that a valve shutter is provided for automatically controlling the main valve of the cylinder in case of emergency.

Such a valve shutter receives a shutoff signal when an emergency such as a fire or an earthquake occurs while the main valve is normally open, and simultaneously closes the opened main valve to shut off the gas supply.

In the conventional Korean Patent No. 10-1360312 (hereinafter referred to as "Patent Document 1"), a handle is formed on the upper part, a case body is formed on the lower part of the handle, and a gear wheel The rotary shaft is provided with a fixing bar. The rotary shaft is provided with an air cylinder which is operated by the air supplied to the rotary shaft by the air supplied to the rotary shaft, And the air cylinder is configured to form a groove in the body so as to receive the sensing line on which the sensor is mounted to detect the rising and falling of the operation bar, And the air supply port includes a shut-off lever having a lever protruding from the upper portion of the case body, Is, configured to be supplied to the air cylinder to the air through the shut-off lever to be supplied, the valve shutter is disclosed consisting of air to be supplied and cut off in accordance with the elevating operation of the lever.

Such a patent document 1 can detect the locking and disassembling of the gas valve and recognize the same at a remote place, so that it is possible to easily operate the lever for locking the gas valve while preventing the occurrence of an accident.

In general, the valve shutter must not only block the leakage of gas but also open normally when it is opened, so that the gas is normally supplied.

Korean Patent No. 10-1695137 (hereinafter referred to as Patent Document 2) has been proposed.

In Patent Document 2, an indicator capable of measuring an amount of rotation up to an angle of 300 ° or more up to 540 ° is formed, so that the valve can be normally locked and opened.

Korean Patent No. 10-1820960 (hereinafter referred to as "Patent Document 3") has been proposed.

Patent Document 3 discloses a gas valve that is coupled to a gas valve knob and is coupled to a main rod portion coupled to a grip portion for opening or closing a gas valve, a spiral spring wound with elasticity and a spring spring, And a cylinder portion connected to the main rod portion by gear engagement to rotate the main rod portion and a cylinder portion that rotates the drive rod portion in a clockwise or counterclockwise direction to open and close the gas valve The manual winding is configured to perform a manual winding operation or a manual winding operation.

(Patent Document 1) KR10-1360312 B1

(Patent Document 2) KR10-1695137 B1

(Patent Document 3) KR10-1820960 B1

However, in the case of Patent Document 1, since the user manually rotates the handle to open the valve of the cylinder, the accuracy is lowered, and the user is manually operated, which results in a problem of poor convenience.

Further, in the above-described Patent Document 2, the valve is configured to be driven only by a human force, which poses a problem that the problem of Patent Document 1 can not be solved yet.

In addition, unlike Patent Documents 1 and 2, Patent Document 3 described above is configured to wind or unwind the spring in an automatic manner, not in a manual manner.

On the other hand, in the case of the spring spring of Patent Document 3, when the gas valve is opened, the gas valve must be closed by the elasticity of the spring spring in case of emergency. Since the force of the spring spring wound upon opening of the gas valve is weak for the first time, The gas valve is not closed completely and reliability can not be ensured.

In order to solve the above problems, a valve shutter to which a malfunction prevention function according to the present invention is applied includes a first and a second cam, first and second air relays, and first and second actuators including first and second buttons, An object of the present invention is to provide a valve shutter to which a malfunction prevention function can be applied, which can increase the convenience of the user by automatically opening or closing the valve.

It is a further object of the present invention to provide a valve control apparatus for a cylinder in which a second actuating part for opening a valve of a cylinder is not operated in a state in which a first actuating part for applying an elastic force to a spring is not operated, So that the valve can be completely closed by the elastic force of the spring even in the event of an accident such as gas leakage.

 Another object of the present invention is to improve the convenience of the user by automatically closing the valve of the cylinder even when replacing the cylinder through the valve closing unit comprising the closing prevention cylinder and the closing button.

The present invention can automatically open or close a valve coupled to a cylinder by using the first and second cams, the first and second air relays, and the first and second actuating parts including the first and second buttons, thereby enhancing the user's convenience.

Further, in the state where the first actuating part for applying an elastic force to the spring is not operated before the cylinder is mounted on the cylinder of the present invention, the second actuating part for opening the valve of the cylinder is not operated so that the gas leakage So that the valve can be completely closed by the elastic force of the spring, so that the safety can be improved.

In addition, it is a useful invention to improve the convenience of the user by automatically closing the valve of the cylinder even when the cylinder is replaced through the valve closing unit comprising the closing prevention cylinder and the closing button.

1 is a perspective view of a valve shutter to which a malfunction prevention function according to the present invention is applied;
2 is an exploded perspective view of a valve shutter and a cylinder in which a malfunction prevention function according to the present invention is applied.
3 is an exploded perspective view of a valve shutter to which a malfunction prevention function according to the present invention is applied.
4 is an exploded perspective view showing first, second and third operating parts in the present invention.

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

First, as shown in FIGS. 1 to 3, the spring 10 is a spiral spring in the form of a spiral spring, and is configured to rotate the first rotation axis S1.

The power transmission member 20 includes a plurality of gears 21 capable of connecting the first rotation axis S1 and the second rotation axis S2 coupled to the spring 10 by the spring 10 .

The gears 21 are configured to be able to adjust the amount of rotation and the like due to the gear ratio adjustment using the gear 21 as means for transmitting power.

Next, the valve handle rotation member 30 is configured to rotate by the above-described second rotation axis S2 so as to rotate the valve handle 2a of the valve 2 formed in the cylinder 1 so as to rotate.

Next, the air motor 40 is arranged on the upper side of the spring 10 to rotate the first rotation axis S1 coupled to the spring 10. [

3 to 4, the first actuating part 50 includes a spring 2, which is a direction in which an elastic force is generated in a spring 10 in the form of a spring-loaded spring that is coupled to the first rotation axis S1, In the direction of the arrow.

The first actuating part 50 includes a first cam 51 engaged with the first rotation shaft S1 and an actuating rotation axis S3 rotated by the power transmitting member 20, A first air relay 52 for discharging the air supplied through the air supply line L to the air motor 40 and a second air relay 52 for supplying air to the air motor 40 by the second air relay 52. [ And a first button 53 for transmitting signals through the air motor 40 to rotate the second rotary shaft S2 and the valve knob rotary member 30 coupled thereto.

Here, the first cam 51 includes a first operating section 51a and a first non-operating section 51b formed in a protruding shape.

The first air relay 52 is provided with a first air inlet 52b to which air is supplied by the first contact 52a and the air supply line L and a second air inlet 52b to which air is introduced through the first air inlet 52b A first air outlet 52c for discharging air to the air motor 40 is formed.

The first contact 52a is pressed when it abuts the first operating section 51a of the first cam 51 so that the first air inlet port 52b and the second air outlet port 62c are connected to each other So that the air supplied through the air supply line (L) can be supplied to the air motor (40).

When the first operating section 51a of the first cam 51 constituting the first operating section 50 is in contact with the first contact 52a of the first air relay 52, The air motor 40 receiving the air through the first air relay 52 is rotated by the first rotary shaft S1 and the power transmitting member 20 and the second rotary shaft (S2), the valve knob rotating member 30 is rotated at a predetermined angle, and at the same time, the second rotary shaft S2 rotates the operation rotary shaft S3 and the first cam 51 of the first actuating part 50 As shown in Fig.

Here, the predetermined angle at which the valve knob rotational member 30 rotates is determined according to the range of the first operating section 51a of the first cam 51. In the present invention, the first rotational axis S1 is in the range of 15 to 40 degrees It is preferable to form the first operating section 51a such that the spring 10 can rotate in a direction in which an elastic force can be applied to the spring 10 in the angular range.

Next, the second operation portion 60 is substantially similar in construction and operation to the first operation portion 50 described above.

That is, the second actuating part 60 includes the second cam 61, the second contact 62a, the second air inlet 62b, and the second cam 61 made up of the second actuating section 61a and the second actuating section 61b, And a second air relay 62 and a second button 63 formed of a second air outlet 62c.

However, the range of the second operating section 61a formed in the second cam 62 of the second actuating section 60 is such that the valve knob rotational member 30 in which the valve 2 can be fully opened is rotated 360 degrees or 540 ° or 720 °. At this time, the valve knob rotating member 30 by the second actuating part 60 is rotated in the direction of rotation of the first actuating part 50 The air motor 40 is driven in the same direction.

In the present invention, in the initial state, the first operating section 51a of the first cam 51 formed in the first actuating section 50 is in contact with the first contact 52a of the first air relay 52 And the second operation section 61a of the second operation section 60 is switched from the instant when the first operation section 51a deviates from the first contact 52a of the first air relay 52 to the second operation section 61a, (62a) of the second housing (62).

In the present invention, the third actuating part 70 may be further formed.

The configuration and operation of the second actuating part 60 of the third actuating part 70 are almost similar.

That is, the third actuating part 70 includes the third cam 71, the third contact 72ba, the third air inlet 72b and the third cam 71b, which are constituted by the third operating section 71a and the third operating section 71b, And a third air relay 72 and a third button 73 formed of a third air outlet 72c.

However, the range of the third operating section 72a formed in the third cam 72 in the third actuating section 70 is set such that the valve knob rotational member 30 rotates 360 degrees or any angle of 540 degrees or 720 degrees The valve handle rotation member 30 by the third actuating part 70 is driven by the air motor 40 in the same direction as the rotation direction of the second actuating part 60. At this time, .

The third actuating part 70 of the first actuating part 50 includes a first actuating section 51a of the first cam 51 as well as the second actuating section 60, The third actuation section 71a of the third actuating section 70 abuts against the third contact 72a of the third air relay 72 from the instant when the second actuating part 52 is released from the first contact 52a.

Particularly, in the first, second and third operation sections formed on the first, second and third cams 51, 61 and 71 formed on the first, second and third operating sections 50, 60 and 70 in Figs. The first and second rotating shafts 51a, 61a and 71a are configured to rotate the second rotation axis S2 more than the actually formed angle by adjusting the gear ratio of the power transmitting member 20. [

For example, as shown in FIG. 4, the second operation section 61a of the second cam 61 is formed at an angle of 180 °, and the third operation section 71a is formed at an angle of about 90 °. The second operation section 61a can rotate the valve handle 2a of the valve 2 by 720 degrees through the adjustment of the gear ratio of the power transmitting member 20 and the third operation section 71a can rotate the valve 2 The valve knob 2a can be rotated by 360 degrees.

The power transmitting member 20 is connected to the fourth rotary shaft S4 so that the valve knob rotational member 30 only rotates in the direction of closing the valve handle 2a of the valve 2, The closing prevention gear 22 is formed at one side of the rotation prevention gear 22 so as to be rotatable in the opposite direction to the fourth rotation axis S4 And a closing button 82 for shutting off the supply of air to the anti-closure cylinder 81. The valve closing unit 80 includes a valve closing unit 80,

Before the closing button 82 of the valve closing unit 80 is operated, air is introduced into the closing prevention cylinder 81 and the valve (not shown) in which the closing prevention gear 22 rotates as the fourth rotation axis S4 Preventive gear 22 is prevented from rotating in the direction in which the valve handle 2a of the valve body 2 is closed and then the air is shut off through the closing button 82, .

Hereinafter, a preferred embodiment of the valve shutter to which the malfunction prevention function according to the present invention is applied will be described.

In order to use the valve shutter 100 to which the malfunction prevention function according to the present invention is applied, it is to be mounted on the cylinder 1 in which the valve 2 is formed.

First, before the valve shutter 100 having the malfunction prevention function is attached to the cylinder 1, the first setting is such that the first operation section 51a of the first cam 51 formed in the first operation section 50 The first air inlet 52b of the first air relay 52 and the first air outlet 52c of the first air relay 52 are in contact with the first contact 52a of the first air relay 52, So that the air can be supplied to the air motor 40.

When the user presses the first button 53 of the first actuating part 50 in the above state, the air motor 40, which is supplied with the air by the first air relay 52, Is rotated at an angle of about 15 to 40 degrees in a direction in which the rotation axis is added.

That is, when the air motor 40 is rotated, the spring 10 coupled to the air motor 40 and the first rotation shaft S1 rotate, and the spring 10, which is in the form of a spring-loaded spring, is in an elastic state.

At the same time, the plurality of gears 21 formed on the power transmitting member 20 are operated by the rotation of the first rotation axis S1, and the second rotation axis S2 and the operation rotation axis S3 are also rotated, The first cam 51 constituting the second cam 50 also rotates.

The rotation of the components by the first actuating part 50 is performed only until the first actuating section 51a of the first cam 51 and the first contact 52a of the first air relay 52 are in contact with each other The first air inlet 52b of the first air relay 52 and the first air outlet 52b of the first air relay 52 are in contact with the first inoperative section 51b of the first cam 51, The air supplied to the air motor 40 is cut off and no further rotation is performed.

When the air circulation of the first air relay 52 of the first actuating part 50 is interrupted and the air motor 40 is stopped, the second cam 61 of the second actuating part 60, The operation section 61a abuts on the second contact 62a formed on the second air relay 62 so that the second air inlet 62b and the second air outlet 62c of the second air relay 62 are connected The air motor 40 can be supplied.

In this state, the installer mounts the valve shutter 100 to which the malfunction prevention function according to the present invention is applied to the cylinder 1.

The valve shutter 100 to which the malfunction prevention function is applied is mounted by fitting the valve handle rotation member 30 of the valve shutter 100 to which the malfunction prevention function is applied to the valve handle 2a formed in the valve 2, (C).

When the engagement of the valve shutter 100 with the malfunction prevention function is completed as described above, the second button 63 formed on the second operation portion 60 is pushed.

The air motor 40 receiving air by the second air relay 62 is driven by the spring 10 and the first rotary shaft S1, the power transmitting member 20, the second rotary shaft S2, The configuration of the valve knob rotating member 30 rotates in the direction in which the valve knob 2a is opened and at the same time the operating rotation axis S3 in which the second cam 61 of the second operating portion 60 is engaged is also rotated do.

Therefore, the rotation is performed until the second contact 61a of the second air relay 62 and the second contact 62a of the second air relay 62 are rotated by the rotation of the second cam 61.

Here, the rotation of the second actuating part 60 is rotated by any one of 360 °, 540 ° and 720 °.

That is, after the valve shutter 100, which is configured to rotate the valve 2 so that it can be fully opened, is mounted on the cylinder 1 to which the malfunction preventing function of the installer is applied, the installer manually operates the valve 2 It is not necessary to open the handle 2a and the operator's convenience can be improved.

Particularly, the present invention is characterized in that when the valve knob rotating member 30 is not rotated in the direction of forming an elastic force on the spring 10 before being mounted on the cylinder 1, the second operating portion 60 for opening the valve 2 It does not work.

This is because more elastic force is applied to the spring 10 to more reliably lock the valve 2 by the spring 10 in the event of a problem such as gas leakage.

That is, in the present invention, the valve shutter 100, which applies an elastic force to the spring 10 in an automatic manner using the first actuating part 50 before the valve shutter 100 to which the malfunction prevention function is applied, The spring 2 is actuated so as to apply an elastic force to the spring 10 while opening the valve 2 in an automatic manner by using the second actuating part 60 after attaching the valve 2 to the cylinder 1 formed in the valve 2. [

Accordingly, since the spring 10 formed of the spring-loaded spring type is automatically wound, the valve 2 of the cylinder 1 is securely held by the spring 10 which forms a sufficient elastic force in the event of an emergency such as a gas leak or the like Thereby improving the convenience of the installer as well as enhancing safety.

Particularly, in the present invention, when the first actuating part 50 is not driven, the second actuating part 60 is also not driven. Therefore, if the installer does not perform the work of winding the spring 10 by mistake, The second actuating part 60 for opening the valve 2 also does not operate so that the installer applies an elastic force to the spring 10 before installing the valve shutter 100 to which the malfunction prevention function is applied on the cylinder 1. [ It is possible to obtain the effect of inducing the process

On the other hand, the valve 2 coupled to the above-described cylinder 1 must be rotated 360 ° or 540 ° or 720 ° to completely open and close depending on the type.

In the present invention, the second actuating part 60 is constructed so that the valve 2 of any of the above types can be fully opened or closed, 2 operation unit 60, the valve shutter 100 having the malfunction prevention function of the present invention can be applied to various kinds of valves 2, and the effect can be obtained.

In the meantime, when the cylinder 1 is to be replaced while the present invention is mounted on the cylinder 1, the valve 2 can be easily closed by an automatic method using the valve closing unit 80, The convenience can be improved.

That is, the above-mentioned power transmitting member 20 is formed with the anti-closure gear 22 that rotates in the direction in which the fourth rotation shaft S4 and the valve 2 are closed, but rotates independently in the opposite direction A closure prevention cylinder 81 for preventing the rotation of the closure prevention gear 22 to prevent the closure prevention gear 22 from rotating in the direction in which the fourth rotation axis S4 rotates together, A valve closing unit 80 composed of a closing button 82 for shutting off the air is constituted.

Therefore, when air in the air supply line L applies air to the closure prevention cylinder 81 of the valve closure unit 80, the closure prevention cylinder 810 comes into contact with the closure prevention gear 22, 22 is prevented from rotating as the fourth rotation axis S4, the rotation of the anti-closure gear 22 is not performed even if the elastic force of the spring 10 is applied, so that the valve 2 is kept open.

However, if the user presses the closing button 82 to shut off the inflow of air into the anti-closure cylinder 81, the contact between the anti-closure cylinder 81 and the anti-closure gear 22 is prevented, The fourth rotary shaft S4, the power transmitting member 20 and the valve knob rotational member 30 and the valve knob 2a of the valve 2 are rotated to maintain the closed state, A valve shutter to which a malfunction prevention function is applied is detached in a reverse order of mounting a valve shutter 100 to which a malfunction prevention function is applied and then a valve shutter 100 to which a malfunction prevention function is applied is attached to a new cylinder 1 So that it can be used.

It is to be understood that both the foregoing general description and the following detailed description of the present invention are exemplary and explanatory and are intended to be illustrative of the present invention and not to limit the scope of the invention. It is expressly evident to those of ordinary skill in the art.

S1: first rotation axis S2: second rotation axis S3: operation rotation axis S4: fourth rotation axis
1: Cylinder
2: Valve 2a: Valve handle
C: Clamp
10: spring
20: Power transmission member
21: Gear 22: Closing prevention gear
30: valve knob rotating member
40: Air motor
50: first operating part
51: first cam 51a: first operating section 51b: first non-operating section
52: first air relay 52a: first contact 52b: first air inlet
52c: first air outlet
53: First button
60: second operating portion
61: second cam 61a: second operating section 61b: second non-operating section
62: second air relay 62a: second contact point 62b: second air inlet
62c: second air outlet
63: Second button
70: Third operating part
71: third cam 71a: third operating section 71b: third non-operating section
72: third air relay 72a: third contact point 72b: third air inlet
72c: third air outlet
73: Third button
80: Valve closing unit
81: Closing prevention cylinder 82: Closing button
100: Valve shutter with anti-malfunction function

Claims (4)

A spring 10 coupled with the first rotation axis S1;
A power transmission member 20 including a plurality of gears 21 capable of connecting a first rotation axis S1 and a second rotation axis S2 coupled to the spring 10 to rotate by the spring 10;
When the power transmitting member 20 is operated by the elastic force of the spring 10 coupled to the second rotation axis S2, the valve handle 2 is engaged with the valve handle 2a of the valve 2 formed in the cylinder 1, A valve knob rotary member 30 which is operated to rotate the valve 2 to open and close the valve 2;
An operating rotation axis S3 connected to the first rotation axis S1 and the power transmission member 20 to rotate;
An air motor 40 for rotating a first rotation axis S1 coupled with the spring 10;
The first operation section 51a and the second operation section 51b are rotated by a predetermined angle in the direction of opening the valve 2 which is coupled to the operation rotation axis S3 and in which the elastic force of the spring 10 coupled to the first rotation axis S1 is formed, The first cam 51 formed in the first non-operation section 51b and the air supply line L connected to the air motor 40 so as to supply air to the air motor 40 by the first cam 51 A first operating portion 50 including a first air relay 52 and a first button 53 for driving the air motor 40 when air is supplied from the first air relay 52 to the air motor 40, ;
The second rotary shaft S2 is coupled to the operating rotary shaft S3 and is disposed at a position where the second rotary shaft S2 can be operated after the first rotary unit S2 is rotated by the first operating unit 50, The second cam 61 having the second operating section 61a and the second inoperative section 61b for rotating the valve 2 completely opened and the second cam 61 A second air relay 62 connected to the air supply line L to supply air to the air motor 40 and an air motor 62 for supplying air from the second air relay 62 to the air motor 40. [ And a second actuating part (60) composed of a second button (63) for actuating the second actuating part (40).
The airbag device according to claim 1, wherein the first and second air relays (52, 62) of the first and second actuating parts (50, 60) 62a which are pressed by the first and second contact points 61a and 61a so that air can be supplied to the air motor 40 and air supply lines 62a and 62b by the first and second contact points 52a and 62a, And air supply ports 52b and 62b for supplying air to the air motor 40 and first and second air outlets 52c and 62c for supplying the air to the air motor 40. [ Valve shutters with anti-lock function.
The apparatus according to claim 1, wherein the operating rotation axis (S3) is formed to be rotatable at an angle different from a rotation angle of the second operating section (61a) of the second cam (61) formed in the second operating section The third operating portion 70 composed of the third air relay 72 and the third operating button 73 constitutes the third cam 71 composed of the third operating section 71a and the third operating section 71b, A valve shutter with a malfunction-proofing feature that is further characterized by being comprised.
The power transmitting member according to claim 1, wherein the power transmitting member is coupled to a fourth rotational shaft (S4) such that the valve knob rotational member (20) rotates only in the direction of closing the valve (2) Preventing gear 22 is provided on one side of the closing prevention gear 22 so that the closing prevention gear 22 is rotated in the direction in which the valve 2 is closed And a closing button (82) formed on an air supply line (L) for supplying air to the anti-closure cylinder (82) to block air, a valve closing unit A valve shutter with a malfunction-proofing feature that is further characterized by being comprised.

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