KR20170010941A - Potensya meta-operated machine having a valve explosion proof construction - Google Patents

Abstract

The present invention relates to a potentiometer with a blast-resistant structure for a valve operator and, more specifically, to a potentiometer with a blast-resistant structure for a valve operator capable of displaying opening of a valve on a percentage basis at the time of open/cross of the valve by protruding from a body of the valve operator to detect rotation of a rotator with a magnet by rotation of a coupling fixed to a spur gear connected with an outer circumference of the coupling of a valve stem nut. A handle (11) is coupled to an upper side of the valve (14), and an operator body (13) in which an air motor (12) is installed and a potentiometer is installed. The potentiometer with a blast-resistant structure for a valve operator displays opening of a valve through an indicator on a percentage basis at the time of open/cross of the valve by sending the rotation number of the coupling (43) fixed to a connection pin (53) from an upper side of the spur gear (52) connected with a valve stem nut (50) of the operator body (13) to the rotation shaft (42). The potentiometer with a blast-resistant structure for a valve operator comprises: a rotator (40) positioned at a lower side of a blast-resistant body (21) while the rotation shaft (42) passes through a bottom cover (45); a blast-resistant body (21) installed to block an upper side of the rotator (40), including a micro-sensor (33) installed in a lower space (25) formed at a lower side of the inside thereof, and including a second PCB (31) in which a chargeable battery (B) and a micro-processor (C) are installed, a first PCB (30) having a protective circuit, and a hole (24) that are installed in a space (23) formed at an upper side of the lower space (25); and a blast-resistant cover (22) installed at an upper side of the blast-resistant body (21).

Description

[0001] The present invention relates to a potentiometer having an explosion-proof structure for a valve actuator,

The present invention relates to a potentiometer having an explosion-proof structure for a valve actuator, and more particularly, to a potentiometer having an explosion-proof structure for a valve actuator, To a potentiometer having an explosion-proof structure for a valve operator, which allows the opening / crossing of the valve to be expressed as a percentage by detecting the rotation of the rotor in which the magnet is installed.

Through the rotation of the handle 11 of the valve actuator 10 provided with a torque limiter for controlling the supply of gas and oil or steam, the valve 14 is opened and crossed by manipulating the stem provided inside the valve 14, A potentiometer (20) is installed in the actuator body (13) to display the opening and the cross amount as a percentage through the indicator according to the control amount after shifting or sensing the rotation in the process of interrupting.

However, in the conventional potentiometer, the coupling 43 is connected to the upper side of the spur gear 52 provided on the outer diameter portion of the coupling gear 51 connected to the valve stem nut 50 through the connecting pin 53 The spur gear and the coupling are simultaneously rotated so that the spur gear is rotated together with the rotation of the coupling gear. And became dependent on imports.

Such a potentiometer meter is expensive and causes a rise in the cost of the valve actuator and is installed so as to be exposed on the upper side of the actuator body 13. Inside the potentiometer meter, a PCB substrate having mechanical elements and electric transfer parts embedded therein, The electrical connection part for electrical connection is not provided to have an explosion-proof structure from the outside, and there is a drawback that it is exposed to danger when an explosion occurs in a petrochemical, gas, oil refinery-related factory or storage where a potentiometer is installed.

Particularly, there is a disadvantage that the shaft is passed through at a portion entering the potentiometer after being shifted through a plurality of gears to which the coupling is connected, and the clearance is generated.

Document 1. Utility Model Registration No. 0273022 (registered on Apr. 20, 2002) Document 2. Patent Registration No. 0158771 (registered on Aug. 06, 1998) Literature 3. Patent Registration No. 1034435 (registered on May 03, 2011) Literature 4. Patent Registration No. 0880026 (registered on Jan. 15, 2009)

SUMMARY OF THE INVENTION It is therefore an object of the present invention to solve the problems of the prior art and to solve the problems of the prior art by providing a spur gear that senses the number of revolutions through a magnet provided on a rotor connected to a coupling rotating, / The amount of cross can be expressed as a percentage.

Another object of the present invention is to provide an explosion-proof structure that increases safety even if the potentiometer exposed in the actuator body of the valve actuator is exposed to danger.

Another object of the present invention is to provide a potentiometer at a very low cost and to be driven by a power source of a battery installed in a rechargeable state and charged during a power failure.

The present invention is characterized in that an actuator body to which a handle is coupled to an upper side of a valve and a potentiometer is installed and in which a rotation speed of a coupling fixed to a connection pin at an upper side of a spur gear connected to a valve stem nut of the actuator body A potentiometer meter which is transmitted to a rotary shaft and displays an amount of opening / closing of a valve by a percentage through an indicator,

A rotor disposed above the rotation shaft and positioned below the explosion-proof body, the rotation shaft passing through the bottom cover;

A micro sensor is installed in a lower space formed on the lower side of the inside of the rotor and a second PCB and a protection circuit installed in a space formed on the upper side of the lower space are provided with a rechargeable battery and a microprocessor 1 explosion proof body forming a PCB and a hole;

And an explosion-proof lid is installed on the upper side of the explosion-proof body.

In the present invention, the number of revolutions is sensed by a microsensor through a magnet provided on a rotor connected to a coupling rotating with a spur gear so that the amount of open / cross according to the amount of opening of the valve can be displayed as a percentage So that the opening amount of the valve can be accurately confirmed.

The present invention provides a safety effect that provides an explosion-proof structure that improves safety even if the potentiometer exposed in the actuator body of the valve manipulator is completely separated from the rotor so that the explosion-proof body does not penetrate and is exposed to danger.

The present invention has a simple structure and can provide a very low price of a potentiometer and provides an effect of improving the safety of being installed in a rechargeable type so as to charge the battery in a normal state and to be driven by a power source of a charged battery when a power failure occurs .

1 is a front view of an installation state showing a preferred embodiment of the present invention;
Fig. 2 is a side view of the valve actuator with the potentiometer of the present invention installed thereon
Fig. 3 is a plan view of a valve actuator in a state in which the potentiometer of the present invention is installed. Fig.
FIG. 4 is a bottom view of the potentiometer of the present invention
5 is a side view of the potentiometer of the present invention
6 is a cross-sectional view of the potentiometer of the present invention
7 is a bottom view of the rotor of the present invention
8 is a cross-sectional view showing a state in which the coupling of the present invention is installed on the manipulator body

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

FIG. 2 is a side view of a valve operating device provided with a potentiometer according to the present invention. FIG. 3 is a side view of a valve operating device with a potentiometer according to the present invention installed thereon. As shown in FIG.

A valve actuator (10) is installed above a valve (14) connected to both sides of a pipe for transporting fluid or the like.

The valve actuator 10 is provided with a handle 11 capable of manual operation on the actuator body 13 provided on the upper side of the valve 14 and an air motor 12 is provided on the actuator body 13, And the potentiometer 20 are exposed.

FIG. 4 is a bottom view of the potentiometer of the present invention, FIG. 5 is a side view of the potentiometer of the present invention, FIG. 6 is a sectional view of the potentiometer of the present invention, .

A coupling 43 connected to the spur gear is coupled to the rotary shaft 42 and exposed downward and a magnet 41 is installed at a predetermined interval in the bottom cover 45 through which the rotary shaft 42 passes The rotor 40 is formed and rotated so as to rotate with the rotation axis 42. [

The potentiometer 20 having an explosion-proof structure is exposed upward from a part of the actuator body 13 to fix the bottom cover 45. The rotary shaft 42 is not pierced to the upper side of the bottom cover 45 And a hole 24 is formed in a part of the explosion-proof body 21 which forms the space 23 on the upper side of the lower space 25 so that power is connected and a signal is supplied.

A sensing groove 26 is formed in the explosion-proof body 21 and a third PCB 32 is provided on the upper side of the sensing groove 26 to provide a micro sensor 33, So that the number of rotations is sensed through the magnet 41 of the electron 40.

A second PCB 31 provided with a battery B and a microprocessor C is installed in the space 23 so that the battery is charged into the battery when power is supplied. And determines the rotational direction sensed through the magnet 41 of the rotor 40 by the microprocessor C, integrates the number of revolutions, calculates the position, outputs 4 to 20 mA current, and stores the memory.

And a first PCB 30 on which power is supplied and a protection circuit is installed is installed on the second PCB.

An explosion-proof lid 22 is coupled to an upper portion of the explosion-proof body 21 to seal the space 23.

8 is a cross-sectional view showing a state in which the coupling of the present invention is installed on an actuator body and is connected to the outer diameter of a coupling gear 51 connected to a valve stem nut 51 provided inside the actuator body 13 And the coupling 43 is connected to the upper side of the rotating spur gear 52 so as to rotate simultaneously through the connecting pin 53.

The potentiometer having the explosion-proof structure for the valve actuator according to the present invention having the above-described configuration can be operated either manually or manually through the air motor 12 in the process of opening / crossing the valve 14 As the spur gear 52 which is circumscribed to the coupling gear 51 rotating together with the valve stem nut 50 as one selection rotates, the spur gear 52 is connected to the upper side of the spur gear 52 via the connecting pin 53 The fixed coupling 43 is rotated at the same time.

The rotation of the coupling 43 causes the rotor 40 installed on the upper side of the rotating shaft 42 rotating at the lower side of the potentiometer 20 to rotate, The microsensor 33 senses one magnet 41 and the microprocessor C determines the direction of rotation, integrates the number of rotations, calculates the position, outputs 4 to 20 mA current, and stores the memory.

The rotation of the rotor 40 provides a structure in which the explosion-proof body 21 is blocked without passing through the rotary shaft 42, so that the explosion-causing fire or gas such as dangerous petrochemical, gas, It is to improve the safety degree through the explosion-proof structure where the danger such as poisoning is implied.

The complicated gear structure which slows down the rotation of the rotary shaft 42 is replaced with the rotor 40, which is highly dependent on imports and causes a significant increase in cost. The structure is made very simple, and the structure is simplified, It is possible to provide accurate data and provide an accurate position according to the amount of opening of the valve and the amount of opening during the crossing.

The rotation of the magnet 41 installed on the rotor 40 is sensed by the microsensor 33 through the sensing improvement groove 26 and the sensed rotation speed is determined by the ratio of the opening rate of the valve 14 through the indicator .

The first PCB 30 is supplied with power and designed as a protection circuit. The second PCB 31 is provided with a battery B to maintain a charged state by a power supplied in a normal state, And the potentiometer 20 is driven by a power source.

In the present invention, since the explosion-proof body of the potentiometer installed to protrude from the valve manipulator is installed to detect the rotation of the rotor by the micro sensor without passing through the rotation shaft, safety through the explosion-proof structure is improved and the PCB So that the battery can be normally driven through the battery when the power is stabilized and the battery is charged during the power failure.

10: valve actuator 11: handle
12: Air motor 13: Actuator body
14: valve 20: potentiometer
21: explosion proof body 22: explosion proof lid
23: space 24: hole
25: lower space 26: sensing improvement groove
30: first PCB 31: second PCB
32: third PCB 33: microsensor
40: rotor 41: magnet
42: rotating shaft 43: coupling
45: bottom cover 50: valve stem nut
51: Coupling gear 52: Spur gear
53: Connection pin B: Battery
C: Microprocessor

Claims (4)

A valve stem nut 50 of the actuator body 13 is provided with an actuator body 13 and a potentiometer 20 to which an actuator 11 is coupled to an upper side of a valve 14 and an air motor 12 is installed. The rotational speed of the coupling 43 fixed by the connecting pin 53 at the upper side of the spur gear 52 connected to the spur gear 52 is transmitted to the rotating shaft 42 so that the amount of opening / In the potentiometer,
A rotor 40 disposed below the explosive body 21 and passing through the bottom cover 45 and installed above the rotary shaft 42;
A micro sensor 33 is installed in the lower space 25 formed on the lower side of the inside of the rotor 40 and a space 23 formed on the upper side of the lower space 25 is charged A second PCB 31 having a battery B and a microprocessor C, a first PCB 30 having a protection circuit and an explosion-proof body 21 having a hole 24 formed therein;
And an explosion-proof lid (22) is provided on the upper side of the explosion-proof body (21).
The method according to claim 1,
The explosion proof body 21 is provided with a third PCB 32 to which the microsensor 33 is fixed in the lower space 25 and a sensing improvement groove 26 is further provided below the microsensor 33 Wherein the valve mechanism has an explosion-proof structure.
The method according to claim 1,
The second PCB 31 installed in the explosion-proof body 21 is charged with power supplied from the battery B and the microprocessor C and uses the power of the battery B charged during the power failure And the microprocessor C is used for determining the direction of rotation, integrating the number of rotations, calculating the position, outputting a current of 4 to 20 mA, storing the memory, and the first PCB 30 is supplied with power and a protection circuit is installed Potentiometer with Explosion - proof Structure for Valve Operator.
The method according to claim 1,
The bottom cover 45 is fixed to the underside of the explosion proof body 21 through a rotary shaft 42 to which a coupling 43 is fixed and has a plurality of magnets 41 Wherein the rotor (40) is fixed to the rotor (40).

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