JPH01131379A - Opening closing control device - Google Patents

Abstract

PURPOSE:To prevent the occurrence of overflow during outage by a method wherein, during outage, an electromagnetic clutch is turned OFF, and a valve is automatically brought into a closed state by means of the energizing force of a return spring. CONSTITUTION:A ratchet mechanism 4 is coupled to a shaft 11 of a rotary solenoid 3, disposed in a casing 2 and rotated forward and reversed, and forward and reverse rotation is converted to rotation in the opening direction of a valve 1. An electromagnetic clutch 5, capable of connecting and disconnecting rotational movement in an opening direction, produced by the ratchet mechanism 4, to and from a valve stem 8, is situated between the ratchet mechanism 4 and the valve stem 8 of the valve 1. A return spring 6, performing energization so that the valve stem 8 is rotated in a closed direction, is provided.

Description

DETAILED DESCRIPTION OF THE INVENTION (Industrial Application Field) This invention relates to an opening/closing control device that automatically closes a valve in the event of an emergency shutdown.

(Prior Art) Electrically operated valves generally include valves, reduction gears, and motors (
The rotation of the output shaft of the motor is decelerated by a reduction gear and transmitted to the valve stem of the valve, thereby fully opening and closing the valve.

By the way, in conventional electric valves, since the rotation of the motor is decelerated by a speed reduction device, there is a problem that the time required for opening and closing becomes long.

In addition, when it becomes impossible to energize the motor due to a power outage or an unexpected accident, the operator must manually control the valve each time, resulting in a time-consuming process.

In particular, if a power outage etc. makes it impossible to energize the motor when the electric valve is fully opened or in the middle of opening, there is a risk of overflow, so workers must manually close the valve at the same time as the power goes out. I had to speak up. However, in this case, it was nearly impossible to control the valves for the number of dormitories in a short period of time, and there was also the risk of forgetting to close the valves and causing an overflow.

Therefore, the electric valves are limited in the number of places where they can be used.

(Problems to be Solved by the Invention) The present invention was devised to solve the above-mentioned problems, and its purpose is to quickly open and close the valve, and to automatically shut off the valve in the event of an emergency such as a power outage. An object of the present invention is to provide an opening/closing control device that closes a valve when the valve is closed.

(Means for Solving the Problems) The opening/closing control device of the present invention includes a rotatable valve, a bank, a valve that opens and closes, a casing attached to the valve, and a casing disposed within a predetermined angle. A rotary solenoid has a shaft that rotates in the forward and reverse directions, a ratchet mechanism that is connected to the shaft and converts the forward and reverse rotation into rotation in the valve opening direction, and an intervening device between the ratchet mechanism and the valve stem of the valve. an electromagnetic clutch capable of connecting and disconnecting the rotational movement in the valve opening direction obtained by the ratchet mechanism to the valve stem;
The rotary solenoid, the ratchet mechanism, and the electromagnetic clutch are arranged on the axis of the valve stem. There is one characteristic that has been placed.

(Function) When the opening/closing control device is in the closed state, when the electromagnetic clutch and rotary solenoid are energized, the electromagnetic clutch engages and the shaft of the rotary solenoid rotates forward and reverse a predetermined number of times. The ratchet mechanism converts the rotation into the valve opening direction.
This rotational motion is transmitted to the valve body by an electromagnetic clutch.

As a result, the valve stem rotates in the direction of opening the valve, and the opening/closing control device becomes open.

Also, if the electromagnetic clutch is cut off while the opening/closing control device is in the open state, the electromagnetic clutch is disconnected, the valve stem of the valve rotates in the direction of closing due to the force of the return spring, and the opening/closing control device closes. On the other hand, if the power to the electromagnetic clutch is cut off due to an accident such as a power outage when the opening/closing control device is fully opened or in the middle of opening, the opening/closing control device will automatically open in the same way as above. The valve closes instantly.

(Example) Hereinafter, an example of the present invention will be described in detail based on the drawings.

FIG. 1 is a schematic vertical sectional view of an opening/closing control device according to an embodiment of the present invention, which includes a valve, a casing 2, a rotary solenoid 3, a ratchet mechanism 4,
It is composed of an electromagnetic clutch 5, a return spring 6, etc., and the rotary solenoid 3, ratchet mechanism 4, and electromagnetic clutch 5 are arranged on the axis of the valve rod 8 of the valve 1, respectively.

The valve 1 includes a valve box 7 in which a flow path is formed, a valve body disposed in the flow path to open and close the flow path, and a valve body 8 rotatably supported by the valve box 7 to rotate the valve body. In this embodiment, valve 1 is a two-way ball valve (normally closed type) that fully opens and closes at the rotation angle of the distribution.
is used.

The casing 2 has a cylindrical shape, and is fixed to the valve box 7 of the valve 1 with a nut 9 or the like in a state aligned with the axis of the valve stem 8.

The rotary solenoid 3 includes a case 10, a coil, and a shaft 11 that rotates forward and backward within a predetermined angle. When voltage is applied to the coil, the shaft 11 rotates by a certain angle, and when the voltage is turned off, The shaft 11 is configured to return to its original position. Further, the rotary solenoid 3 is fixed to the upper part of the casing 2 so that its shaft 11 is aligned with the axis of the valve rod 8.

In this embodiment, the rotary solenoid 3 used has a shaft 11 whose rotation angle range is 15 degrees.

The ratchet mechanism 4 is disposed within the casing 2, and is connected to the shaft 11 of the rotary lean valve 3 to convert forward and reverse rotation thereof into rotation in the opening direction of the valve 1.

Specifically, the ratchet mechanism 4 includes a ratchet 13 rotatably supported in a support case 12 provided in the casing 2, an arm 14 connected to the shaft 11 of the rotary solenoid 3, and a pivot point on the arm 14. It is composed of a feed pawl 15 etc. that is supported and meshes with the ratchet 13,
When the shaft 11 of the rotary solenoid 3 rotates forward and backward a predetermined number of times, the ratchet 13 is intermittently rotated in the opening direction of the valve 1 by the action of the arm 14 and the feed pawl 15. As a result, the forward and reverse rotation of the shaft tt is converted into rotation in one direction.

The electromagnetic clutch 5 is interposed between the ratchet mechanism 4 and the valve stem 8 of the valve 1, and is capable of connecting and disconnecting the rotational movement in the valve opening direction obtained by the ratchet mechanism 4 to the valve stem 8. be.

Specifically, the electromagnetic clutch 5 has its drive shaft 16 side connected to the ratchet 13, and its driven shaft 17 side connected to the valve stem 8 via a shaft coupling 18.
It is configured to be in the N state to transmit the rotational movement of the ratchet 13 to the valve stem 8, and to be in the OFF state to release the transmission state when the power is cut off.

In this embodiment, the electromagnetic clutch 5 is of a narrow friction type.

The return spring 6 is interposed between the casing 2 and the valve stem 8 of the valve 1, and urges the valve stem 8 to rotate in the direction of closing the valve. As the return spring 6, a coiled tension spring is used which has a biasing force capable of rotating the valve stem 8 until the valve 1 is closed. This Q return spring 6 is connected to the electromagnetic clutch 5
It is wound around a stepped disc 19 connected to the driven shaft 17, and one end thereof is fixed to the casing 2 and the other end is fixed to the disc 19, respectively.

In this embodiment, when the electric circuit inputs the valve open signal after turning on the power supply voltage, the electromagnetic clutch 5 is engaged.
Next, a pulse signal is input to the rotary solenoid 3 to open the valve 1, and when a valve close signal is input, the electromagnetic clutch 5 is disengaged and the valve 1 is closed.

Next, we will explain the operation of the present opening/closing control device.0 When a valve opening signal is input when valve 1 is in the closed state, electromagnetic clutch 5 is engaged, and then rotary solenoid 3
A six-pulse signal is input to the shaft 11, and the shaft 11 rotates forward and backward six times. Then, the ratchet mechanism 4 converts the forward and reverse rotation of the shaft 11 into rotation of the valve 1 in the valve opening direction, and this rotational movement is transmitted to the valve rod 8 by the electromagnetic clutch 5.

As a result, the valve stem 8 rotates in the direction to open the valve, and the valve 1 becomes open.

Furthermore, when a valve close signal is input when valve l is open, the electromagnetic clutch 5 is disengaged, the valve 8 of valve 1 is rotated in the direction of closing by the biasing force of return spring 6, and valve 1 is instantaneously closed. The valve becomes closed.

On the other hand, when the valve 1 is fully opened or in the middle of opening, if the power to the electromagnetic clutch 5 is cut off due to an accident such as a power outage, the valve 1 is automatically activated by the return spring 6 in the same manner as described above. The valve is instantly closed.

In the above embodiment, a two-way ball valve that fully opens and closes at a rotation angle of 90 degrees was used as the valve 1, but the valve 1 is not limited to the one in the above embodiment, and may be freely rotatable. Any structure and type may be used as long as the valve stem 8 is provided and the flow path can be opened and closed by rotating the valve stem 8. For example, the valve l may be a three-way ball valve, a butterfly valve, or the like, or may be one that fully opens and closes by rotating 180 degrees at its own risk.

Further, in the above embodiment, the ratchet mechanism 4 was composed of the ratchet 13, the arm 14, the feed pawl 15, etc., but this is not limited to the above embodiment, and the ratchet mechanism 4 is not limited to the above embodiment. It may be of any construction and type as long as it can convert the rotation into the direction of rotation of the valve l in the opening direction.

Further, in the above embodiment, a coiled tension spring is used as the return spring 6, but in other embodiments, a spiral spring may be used.

(Effects of the Invention) Since the present invention has the above configuration, it has the following advantages.

(1) In the present invention, a rotary solenoid and a pal.

A ratchet J5 mechanism and an electromagnetic clutch are interposed between the valve stem and the valve stem, and the valve stem is energized by a return spring to rotate in the direction of closing the valve, so in the event of a power outage, the electromagnetic clutch is disengaged and the valve returns to normal. The valve automatically and instantly closes due to the biasing force of the spring. As a result, in the event of a power outage, there is no need for workers to close the valves one by one, which is a cumbersome task.
Moreover, overflow can be reliably prevented.

(2) Since the present invention uses a rotary solenoid, electromagnetic clutch, etc. when opening the valve, and a return spring when closing the valve, it opens and closes more easily than conventional electric valves that use a reduction gear. Valve can be done quickly.

(3) In the present invention, since the rotary solenoid, ratchet mechanism, and electromagnetic clutch are respectively arranged on the axis of the valve stem of the valve, the electric valve itself can be made more compact.

(4) In the present invention, since a rotary solenoid is used as the drive source, power consumption is low and there is almost no heat generation.

(5) In the present invention, only wiring is required when installing in a fluid circuit, and the installation is easy.

[Brief explanation of the drawing]

FIG. 1 is a schematic longitudinal sectional view of an opening/closing control device according to an embodiment of the present invention. 1 is a valve, 2 is a casing, 3 is a rotary solenoid, 4 is a ratchet mechanism, 5 is an electromagnetic clutch, 6 is a return spring, 8 is a valve stem, and 11 is a shaft. Patent applicant Yama 1) Manchuria Figure 1

Claims (1)

[Claims] A valve (1) that is equipped with a rotatable valve stem (8) and that opens and closes.
and a casing (2) attached to the valve (1);
A rotary solenoid (3) is disposed in a casing (2) and has a shaft (11) that rotates forward and backward within a predetermined angle.
), a ratchet mechanism (4) that is connected to the shaft (11) and converts its forward and reverse rotation into rotation in the valve opening direction of the valve (1), and a ratchet mechanism (4) and the valve stem of the valve (1). (8), and is capable of connecting and disconnecting the rotational movement in the valve opening direction obtained by the ratchet mechanism (4) to the valve stem (8), and the casing (2) and the valve. Stick (8
) is provided with a return spring (6) that urges the valve stem (8) to rotate in the valve closing direction, and the rotary solenoid (3), the ratchet mechanism (4) and the electromagnetic An opening/closing control device characterized in that a clutch (5) is arranged on the axis of a valve rod (8).