JPH055350Y2 - - Google Patents

Description

[Detailed Description of the Invention] [Field of Application of the Invention] The present invention relates to an operating device for an emergency valve that is opened or closed by power in an emergency. This invention relates to a valve operating device.

[Background of the idea]

Recently, emergency valves that are automatically opened or closed in an emergency have become widely used. Generally, a rotary valve such as a ball valve is used as such an emergency valve, and the driving source for the actuating device that rotates the valve element is electricity, pneumatic pressure, gas pressure, water pressure, hydraulic pressure, etc. They are selected and used as appropriate according to the specifications. However, in general, the actuating device must be considerably larger, heavier, and more expensive than the emergency valve body, and furthermore, its operation and management are complicated.

An example of such a conventional emergency valve operating device is shown in FIG. In Fig. 4, 1 is an emergency valve formed as a ball valve, 2 is its ball valve, 3 is a valve stem,
4 is a cylinder device that operates the emergency valve. The illustrated cylinder device 4 is driven by air pressure or gas pressure energy, moves a piston (not shown) by the energy of the air or gas pressurized within the cylinder, and transfers the moving force of the piston to a gear or link. The signal is transmitted to the valve stem 3 via the mechanism to open and close the ball valve 2. This type of emergency valve operating device requires a cylinder and piston with an appropriate diameter and stroke in order to generate the valve operating force (torque in the case of the rotary valve shown), and the cylinder requires a considerably large volume. Therefore, its size, weight, and cost are also large. In addition, this type of emergency valve generally uses air pressure, gas pressure, etc. to operate, and the return operation after activation is performed manually, but when the diameter of the valve becomes large, the return operation is performed by manual lever operation. It is impossible to do so, so a speed reducer is provided for the return operation. However, if the reducer is used only for the return operation in this way, it will not only be structurally complicated, but also the work management will be complicated, and incorrect handling may lead to an accident.

[Purpose of invention]

The purpose of the present invention is to eliminate the drawbacks of the conventional emergency valve operating device as described above, simplify the structure, and provide a safer, more compact, lighter, easier to work with, and cheaper emergency valve operating device. be.

[Structure of the idea]

The emergency valve operating device according to the present invention is characterized in that the output shaft of a motor driven by compressed air or gas energy is connected to the eccentric input shaft of a planetary gear reduction mechanism. The output shaft of is connected to the valve stem of the emergency rotary valve so that the motor operates the emergency rotary valve through the planetary gear reduction mechanism, and the motor includes:
A purge hole is provided to purge air or gas acting on the motor when the rotary valve rotates to a desired valve open position or valve close position, and the output shaft is provided with a purge hole in the open state. The present invention is provided with a portion that engages an operating tool for manually returning and rotating the output shaft.

[Effect]

In the emergency valve operating device according to the present invention, in an emergency, compressed air or gas is fed into the motor to rotate its output shaft and operate the emergency valve via the planetary gear reduction mechanism.

However, upon completion of the valve operation, the gas that operates the motor is released through the purge hole. By using a planetary gear reduction mechanism with such a large reduction ratio, the emergency valve can be operated satisfactorily with a low-output motor, and after the valve operation is completed, the return operation can be performed with a light force.

[Example of idea]

Embodiments of the present invention will be described below with reference to the drawings.

FIG. 1 shows an embodiment of an emergency valve operating device according to the present invention.

In the figure, 10 indicates a pneumatic motor, and 11 indicates a planetary gear reduction mechanism. As shown in FIGS. 1 and 2, the illustrated pneumatic motor has a rotor 13 rotatably disposed within a casing consisting of a cylinder case 12 and a lid 12', and vanes 14 provided in and out of the rotor 13. is in contact with the inner wall of the casing,
It consists of a vane motor that rotates a rotor by introducing gas from an inlet 15. For example, this vane motor can be operated by compressing the vane 14 by pressurizing CO ₂ gas into the cylinder case.
rotates while contacting the inner wall of the cylinder case, thereby rotating the output shaft 16 connected to the rotor.

The planetary gear reduction mechanism 11 has an external gear 17, an internal gear (case) 18, an eccentric input shaft 19, a pin 20, and an output shaft 21, and the eccentric input shaft 19 is integrally connected to the output shaft 16 of the pneumatic motor. , and the output shaft 21 of the planetary gear reduction mechanism.
is connected to the valve stem of the emergency valve. An adjustment plate 22 is attached to the upper part of the external gear 17, and a pointer 23 is attached to this to indicate the rotation angle of the emergency valve.

A purge hole 24 is provided in the cylinder case 12 of the pneumatic motor 10, and when the valve does not rotate, the purge hole 24 is closed by an adjustment plate 22 as shown in FIG. When the valve rotates to a desired position (valve open position or valve closed position), the purge hole 24 communicates with a purge hole 25 provided in the adjustment plate 22 as shown in FIG. , thus stopping the rotation of the valve in place.

Note that the upwardly projecting end of the output shaft 16 has a
A portion is formed that engages an operating lever that manually rotates the output shaft back when the purge hole is open.

As described above, the manual device according to the present invention rotates the output shaft of the pneumatic motor by pumping, for example, CO ₂ gas into the cylinder case, and this rotation is reduced by the planetary gear reduction mechanism. Rotate the valve stem of the emergency valve to open and close the valve. In this device, the larger the diameter of the emergency valve, the larger the reduction ratio of the planetary gear reduction mechanism or the higher the gas pressure, without increasing the overall size of the device.
The emergency valve can be operated effectively. However, after activation, the valve can be easily returned to its original position by turning the output shaft of the pneumatic motor in the opposite direction by the number of times the rotor has rotated, and the number of rotations is indicated by the pointer. be done. However, since the planetary gear reduction mechanism is provided, the return rotation can be easily performed manually using a short lever.

When using _CO2 gas to operate the emergency valve,
The pressure or volume at which the liquid vaporizes varies depending on the temperature, so choose a high pressure and a large volume.
When the valve reaches its operating position, the valve is stopped at a predetermined position by aligning the purge hole in the adjustment plate with the purge hole provided in the pneumatic motor and purging excess gas.

[Effect of idea]

As can be seen from the above description, the present invention can provide an emergency valve operating device that has a simple structure, operates more safely, is compact, lightweight, has good workability, and is inexpensive. However, by operating a planetary gear reduction mechanism with a large reduction ratio, a low output pneumatic motor can be used to cover the rotation speed, and the emergency valve can be operated satisfactorily. In addition, when supplying gas from a gas cylinder, there is a risk of variation in rotational force due to temperature changes, but if you install a cylinder with a volume set to the lowest temperature at room temperature, it can be used throughout the room temperature range. It becomes possible. However, in this case, the remaining gas is discharged through the verge hole when the required rotational speed is completed, that is, when the valve operation is completed. In the device of the present invention, the output shaft of the pneumatic motor, the output shaft of the planetary gear reduction mechanism, and the valve stem of the emergency valve are integrally connected. Simply engage and rotate the shaft in the opposite direction with a light manual operation.

[Brief explanation of the drawing]

Fig. 1 is a vertical sectional view showing an embodiment of the actuating device according to the present invention, Fig. 2 is a horizontal sectional view of the pneumatic motor shown in Fig. 1, and Fig. 3 is Fig. 1 showing the operation of the device. FIG. 4 is a vertical sectional view similar to FIG. DESCRIPTION OF SYMBOLS 1... Emergency valve, 2... Ball valve, 2... Valve stem, 4... Cylinder device, 10... Pneumatic motor, 11... Planetary gear reduction mechanism, 12... Cylinder case, 12'... Lid , 13...rotor, 1
4... Vane, 15... Inlet, 16... Output shaft, 17... External gear, 18... Internal gear (case), 19... Eccentric input shaft,
20...Pin, 21...Output shaft, 22...Adjustment plate, 23...Pointer, 24, 25...Purge hole.

Claims (1)

[Scope of utility model registration request] In a device that operates an emergency valve that automatically opens or closes in an emergency, the output shaft of a motor driven by compressed air or gas energy is
It is connected to the eccentric input shaft of the planetary gear reduction mechanism, and the output shaft of the planetary gear reduction mechanism is connected to the valve stem of the emergency rotary valve, and the emergency rotation valve is operated by the motor via the planetary gear reduction mechanism. The motor is provided with a purge hole for purging air or gas acting on the motor when the rotary valve is rotated to a desired opening position or closing position, and the output shaft is provided with a purge hole for purging air or gas acting on the motor when the rotary valve is rotated to a desired opening position or closing position. An operating device for an emergency valve, characterized in that it is provided with a portion that engages an operating tool for manually returning and rotating the output shaft when the purge hole is open.