KR101360312B1 - Valve shutter - Google Patents

Abstract

The present invention relates to a valve shutter and more specifically, a valve shutter capable of allowing a user to recognize lock and unlock of a gas valve at a remote distance by sensing the lock and the unlock of the gas valve and sending the sensed signal. The valve shutter comprises a handle (4) on the upper part and a case body (1) in the lower part of the handle (4). A rotary shaft (26) is rotated by a gear wheel (25) vibrated by a spring (24) in the case body (1) so that the valve shutter can lock the gas valve of a pressure gas tank (10).

Description

Valve shutter

The present invention relates to a valve shutter capable of emergency blocking the valve of the compressed gas container, for example, to prevent explosions, fire prevention and gas poisoning due to leakage of high pressure gas such as oxygen and nitrogen gas. And it relates to a valve shutter that is operated for the purpose of preventing secondary damage during an earthquake.

[Patent Document 1] Patent Registration No. 10-1040362 (June 2, 2011)

[Patent Document 2] Utility Model Registration No. 20-0047474 (May 15, 1990)

[Document 3] Utility Model Registration No. 20-0144216 (1999.02.01)

Conventional emergency gas shutoff device of the compressed gas can be of various forms, but the technical field to which the present invention is applied is a combination of mechanical configuration and energy using the supply pressure of the air in the configuration of the gas shut-off device that the power is unnecessary It is about.

The internal structure of this configuration is composed of a combination of a spring and a metal gear body for transmitting the power for the valve locking operation, excellent durability, the basic operation is the locking and disassembly of the valve by the vertical operation of the lever.

The present invention has developed a device to detect the locking and disassembly of the gas valve to send this detection signal to recognize the remote location. In addition, the present invention has various structural improvements to facilitate the installation of the valve shutter.

It is another object of the present invention to provide a valve shutter having a structure in which a manual operation of a lever for locking a gas valve is easy and a linear motion can be made accurately.

The main configuration of the present invention for solving the problems of the present invention, the handle 4 is configured in the upper portion, the case body 1 is configured in the lower handle 4, the spring body inside the case body (1) In the valve shutter which rotates the rotating shaft 26 by the gearwheel 25 transmitted by the 24, and locks the gas valve of the pressure gas cylinder 10, The fixed shaft 22 is comprised in the said rotating shaft 26. On the side of the rotating shaft 26 is configured an air cylinder 20 in which the operation bar 21 is moved up and down by the air supplied to control the rotation of the fixed bar 22, the air cylinder 20 is Forming a groove 33 in the body, it is configured to accommodate the sensing line 36, the sensor 35 is mounted, characterized in that configured to detect the rising and falling of the operation bar 21, the air cylinder 20 ) Is configured to operate the operating bar 21 by the air supply port 38 is supplied with air, The air supply port 38 is connected to a shutoff lever 30 having a lever 3 protruding above the case body 1 so that the supplied air is supplied to the air cylinder 20 via the shutoff lever 30. It is configured to be configured, so that the air is supplied and blocked in accordance with the lifting and lowering operation of the lever (3), the operation bar 21 installed in the interior of the air cylinder 20, a magnetic is configured, the sensor (35) is configured to detect the position of the magnetic, and send it to the device for detecting the detection signal, the case body (1) is installed on the platform (8), the tightening of the adjustment screw (6) By the fixed by, the height is adjustable in the platform 8, characterized in that, the lower portion of the platform 8 is provided with a band-shaped clamp 11 for fixing the upper portion of the compressed gas cylinder 10, the clamp ( 11) there is a screw at the tip to tighten the clamp 11 Formed to form a clamp handle 12 that can tighten the clamp 11 by tightening the screw.

According to the present invention, by detecting the locking and disassembly of the gas valve to send this detection signal can be recognized at a remote location can prevent accidents in advance.

In another aspect, the present invention provides a valve shutter of the structure that can be easily operated manual operation of the lever for locking the gas valve in the configuration of the valve shutter, there is almost no failure and the operation can be made accurately.

1 is a view for explaining the present invention
FIG. 2 is a view illustrating a case body 1 removed with the actual product of FIG. 1; FIG.
3 is an internal configuration diagram of a case body 1
4 is a case body removed
5 is an exemplary view showing an air cylinder used in the present invention.

Hereinafter, the present invention will be described in further detail based on the accompanying drawings.

1 is a view for explaining a configuration according to the present invention.

As shown, in the present invention, the air 2 is formed through the upper surface of the case body 1 so that air is supplied thereto.

The lever 3 and the handle 4 are comprised in the air port 2 side part. The adjusting screw 6 is formed on the side of the case body 1 to adjust and fix the installation height of the case body 1 along the height of the platform 8. A clamp 11 and a clamp handle 12 are installed below the case body 1 so as to be engaged with the upper portion of the compressed gas cylinder 10.

As shown in FIG. 2, the upper portion of the compressed gas cylinder 10 is connected to the clamp 11, and a valve configured at the top of the compressed gas cylinder 10 is inserted into the case cover 1 so that the valve of the compressed gas cylinder 10 is opened and locked. It is configured to be controlled.

Briefly explaining the operation by the above configuration, when the air is supplied, the air pressure of the air through the air hose 13 shown in FIG. 2 is injected through the air port 2 of FIG. By acting on the air cylinder 20 shown in Figure 3 is configured to be controlled by the air pressure. In such a state as usual, if an emergency condition in which gas leaks occurs, urgently pressing the lever 3 configured at the upper end of the shutoff lever 30, the air pressure acts on the air cylinder 20 by the supply of air to operate the piston of the cylinder The phosphorus operation bar 21 rises as shown in FIG.

When the operation bar 21 quickly rises and enters the air cylinder 20 in this manner, the fixing bar 22 is freed in the state of being caught by the operation bar 21, and rotates under the rotational force of the spring spring 24. In more detail, the spring has a force to be always released, the force is transmitted to the rotating shaft 26, the fixing bar 22 is installed via a plurality of gear wheels (25). The fixed bar 22 is installed horizontally on the rotating shaft 26, and is normally caught by the operating bar 21 and cannot rotate, but in an emergency, the operating bar 21 is supplied by the pressure of the operating bar 21 by pressing the lever 3. As it rises, the fixing bar 22 can freely rotate. Then, the valve of the compressed gas cylinder 10 connected to the rotating shaft 26 to operate together is rotated in the locked direction, so that the compressed gas cylinder 10 is urgently locked to prevent the leaked gas.

On the contrary, when the lever 3 is lifted up, the air to be supplied is cut off and the operating bar 21 serving as the cylinder rod is lowered by the inherent spring force. Then, even if the fixing bar 22 is rotated by the operation bar 21 can not be rotated any more. In this state, the spring 4 can be wound again by turning the handle 4 again. Then, the spring spring 24 is wound and at the same time the gear wheel 25 is rotated and the rotation shaft 26 is also rotated, and the valve of the compressed gas cylinder 10 which is connected to the rotation shaft 26 and rotates together is also opened. Will be opened. In other words, the upper valve of the compressed gas cylinder 10 is returned to the first open state. Thus, the loose spring spring (24) is wound up to give rotational force. In case of a future gas leakage accident, by pressing the lever (3), the screw (25) and the rotating shaft (26) can be rotated again to lock the gas valve to supply gas. Allow to block.

FIG. 4 is a view corresponding to FIG. 2 and illustrates the structure of the spring spring 24 and the operation bar 21 so that the configuration may be more clearly seen.

5 is a view for explaining the configuration of the air cylinder 20 in more detail.

In this figure, although the operation bar 21 is different from the structure shown in Figs. 3 and 4, the operation principle is the same.

The air cylinder 20 is provided with a groove 33 in the body to install a sensing line 36 mounted with a position sensor 35 therein. The air cylinder 20 is mounted inside the air cylinder 20, and the upper and lower operation bars 21 for raising and lowering the cylinder are integrally connected with a magnetic (not shown). The sensor 35 detects the movement of the magnetic. can do.

Therefore, the detected position detection signal can be sent to a control device or a display device to determine the current operating state of the operating bar 21, so as to determine whether there is a gas leakage accident. Reference numeral 38 is an air supply port for operating the operation bar 21 of the cylinder.

1 case body 2 air port
3 Lever 4 Handle
6 Adjustable Screws 8 Platforms
10 Compressed Cylinder 12 Clamp Handle
13 Air Hose 20 Air Cylinder
21 Operating Bar 22 Fixed Bar
24 Manual spring 25 Gear wheel
26 Shaft 30 Lock lever
33 home 35 sensor
36 Detection line 38 Air supply port

Claims (5)

The handle 4 is configured at the upper portion, the case body 1 is formed at the lower portion of the handle 4, and the rotating shaft () is rotated by a gear wheel 25 driven by a spring spring 24 inside the case body 1. In the valve shutter which rotates 26 and locks the gas valve of the pressure gas cylinder 10,
The rotating shaft 26 is configured with a fixed bar 22, the side of the rotating shaft 26 is configured by the air cylinder 20, the operating bar 21 is moved up and down by the air supplied, the fixed bar 22 Control the rotation of
The air cylinder 20 is configured to form a groove 33 in the body, so that the sensing line 36, on which the sensor 35 is mounted, is accommodated, so as to sense the rising and falling of the operation bar 21,
The air cylinder 20 has an air supply port 38 is configured to operate the operating bar 21 by supplying air,
The air supply port 38 is connected to a shutoff lever 30 having a lever 3 protruding above the case body 1 so that the supplied air is supplied to the air cylinder 20 via the shutoff lever 30. The valve shutter, characterized in that the air is configured to be supplied and shut off in accordance with the lifting and lowering operation of the lever (3). delete The method of claim 1,
The magnetic bar is configured in the operation bar 21 installed inside the air cylinder 20, and the sensor 35 is configured to detect the position of the magnetic and send it to a device that recognizes a detection signal. Valve shutter. The method of claim 1,
The case body (1) is installed on the platform (8), the valve by the tightening of the adjustment screw (6), the valve shutter, characterized in that the height adjustable in the platform (8) installed. 5. The method of claim 4,
A band-shaped clamp 11 fixing the upper portion of the compressed gas cylinder 10 is installed at the lower part of the platform 8, and a screw is formed at the distal end of the clamp 11 to tighten the clamp 11. A valve shutter, characterized in that the clamp handle 12 is formed to tighten the clamp (11).

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