KR101103799B1 - Air Control Valve Checking Apparatus - Google Patents

Abstract

An air control valve inspection apparatus is proposed to reduce the inspection error rate by installing a seal for measuring the opening degree. The proposed air control valve checking device is a device for measuring the opening degree of the air control valve, which is fixed to the air control valve and whose position changes according to the opening degree of the air control valve, and one end is connected to the fixed part. And the other end is connected to the rotating part to measure the opening degree measuring thread wound or unrolled in the rotating part according to the position change of the fixing part, the rotating part rotating according to the state in which the opening degree measuring thread is wound or unwound, and the rotational amount of the rotating part is measured. An optical encoder unit, an air pressure measuring unit for measuring the air pressure of the air control valve in accordance with the opening degree based on the rotation amount, and a magnet unit for fixing the air control valve checking device to the air control valve.

Air Control Valves, Encoders

Description

Air Control Valve Checking Apparatus

The present invention relates to an air control valve check device, and more particularly, to an air control valve check device that can measure the opening rate and air pressure of the air control valve with high reliability.

Air control valve is installed in hydraulic power, thermal power, nuclear power plant and various industrial production plants and used for flow control and tank level control. It is operated by pneumatic signal proportional to pneumatic operation amount. Can be used for

The air control valve is composed of a signal converter according to the control signal type and a positioner that provides a feedback feedback signal to sense the actual air pressure booster and valve control position to the pneumatic valve actuator. The positioner is an auxiliary device for reducing the hysteresis while providing fast response. Air control valves are used especially when the opening accuracy of precise control, which opens and closes frequently depending on the pressure of the flow rate and the water level operating conditions, is required.

In accordance with the importance of the air control valve it is common to install a separate device for checking the air control valve. The air control valve can be checked by measuring the opening degree of the air control valve, comparing the air pressure with the reference value. Conventionally, when measuring the air pressure, the air pressure should be measured at an accurate opening rate. However, when measuring the opening rate, there is a problem that an error occurs due to the influence of vibration and heat.

The present invention has been made to solve the above problems, and an object of the present invention is to provide an air control valve inspection apparatus that can reduce the error rate of inspection.

Air control valve check apparatus used for measuring the opening degree of the air control valve according to an aspect of the present invention for achieving the above object,

Fixed part that is fixed to the air control valve and whose position changes according to the opening degree of the air control valve, and one end is connected to the fixed part and the other end is connected to the rotating part to open or unwind to the rotating part in accordance with the position change of the fixed part. The rotating part that rotates according to the state in which the measuring thread and the opening degree measuring thread are wound or unwound, an optical encoder for measuring the amount of rotation of the rotating part, and an air pressure for measuring the air pressure of the air control valve according to the opening degree based on the amount of rotation. It includes a magnet for fixing the air control valve check device to the measuring unit and the air control valve.

The seal for measuring the opening degree is made of nylon, and the effective length is changed based on the movement of the fixing part.

The effective length of the yarn for measuring the opening degree is a length from the fixed portion to the rotating portion.

The rotating part includes a spring module for winding or unwinding the rotating body according to the length of the rotating body for unwinding and winding the opening degree measuring thread and the opening degree measuring thread.

The optical encoder is characterized in that it is a contact type displacement measuring sensor (LVDT, Linear Variable Differential Transformer) method.

The air pressure measuring unit is characterized in that for measuring the air pressure when the opening degree of the air control valve is 0%, 25%, 50%, 75% and 100%.

According to the present invention, it is possible to reduce the inspection error rate due to vibration and heat in the optical encoder by connecting the opening for measuring the opening rate to the optical encoder used for the inspection of the air control valve.

In addition, it checks whether the encoder part and the air pressure measuring part of the air control valve are normally operated and observes the inspection process of the air control valve, and stores the measurement result value, so that it is possible to prepare for a variety of check errors that may occur, thereby improving the checking efficiency. It can increase the effect.

Advantages and features of the present invention, and methods for achieving them will be apparent with reference to the embodiments described below in detail in conjunction with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but will be implemented in various forms, and only the present embodiments are intended to complete the disclosure of the present invention, and the general knowledge in the art to which the present invention pertains. It is provided to fully convey the scope of the invention to those skilled in the art, and the present invention is defined only by the scope of the claims.

1 to 2 is a schematic perspective view showing an air control valve check apparatus according to an embodiment of the present invention. Air control valve check device 100 according to an embodiment of the present invention is fixed to the air control valve (not shown) fixed portion 110, the position of which changes in accordance with the opening degree of the air control valve (not shown), one end Connected to the fixing part 110 and the other end is connected to the rotating part 130, the opening degree measuring chamber 120, the opening degree measurement for winding or unwinding the rotating part 130 in accordance with the position change of the fixing part 110 The rotary unit 130 rotating according to the state in which the seal 120 is wound or unwound, the optical encoder unit 140 measuring the amount of rotation of the rotating unit 130, and an air control valve (not shown) according to the opening degree based on the amount of rotation. Air pressure measuring unit (not shown) for measuring the air pressure of the air control valve (not shown) and the magnet control unit 150 for fixing the air control valve check device 100.

The fixing unit 110 is fixed to the air control valve (not shown). The fixing unit 110 moves together with the opening of the valve of the air control valve (not shown), and thus the positional change of the fixing unit 110 is directly related to the opening degree of the air control valve (not shown). For example, when the air control valve (not shown) moves up and down linearly, according to the movement of the air control valve (not shown), the fixed part 110 connected thereto performs the up and down linear movement together, The motion is transferred to 120.

Referring to Figure 1, the fixing portion 110 is a ring shape. This is to fasten the air control valve check device 100 in a simple manner by hooking the looped fixing unit 110 to the air control valve (not shown), it is not necessarily a ring shape.

The fixed part 110 is fixed at one end to an air control valve (not shown), and the other end is connected to the seal 120 for opening degree measurement. This is to measure the movement amount obtained from the air control valve (not shown) in the fixing unit 110, the fixing unit 110 is moved in accordance with the movement of the air control valve (not shown), such fixing unit 110 The movement of is reflected in the opening 120 for measuring the opening degree.

That is, the effective length of the opening 120 for measuring the opening rate varies according to the movement of the fixing unit 110. In this specification, the effective length of the opening degree measuring chamber 120 means the length from the fixed part 110 to the rotating part 130. 1, when the fixing part 110 connected to the air control valve (not shown) moves up and down according to the movement of the air control valve (not shown), one end of the thread to which the ring part 110 is connected is fixed ( It moves according to the movement of 110).

For example, when the air control valve (not shown) moves upward, the fixing part 110 moves upward. One end of the opening degree measuring thread 120 connected to the fixing part 110 moves upward along the fixing part 110, and the opening degree measuring thread 120 wound around the rotating part 130 is released to open the opening degree. The effective length of the rate measurement thread 120 becomes long. The difference between the original effective length and the effective length changed according to the movement of the air control valve (not shown) becomes a standard for measuring the opening degree.

Although the opening degree measuring thread 120 is thin, it is preferable that the strength of the nylon material is relatively strong enough to be wound or unwound from the rotating part 130 according to the movement of the fixing part 110, but is not necessarily limited thereto. Since the open rate is measured using such a yarn, the open rate error due to vibration or heat can be reduced.

The rotating unit 130 rotates according to a state in which the opening degree measuring chamber 120 is wound or unwound. As described above, the rotating part 130 is connected to the other end of the opening degree measuring thread 120, so that when the effective length of the opening degree measuring thread 120 becomes long, the rotating part 130 is the opening degree measuring thread 120. ) Rotates in the unwinding direction, and when the effective length is shortened, the rotating part 130 rotates in the direction in which the opening degree measuring chamber 120 is wound. To this end, the rotating unit 130 includes a spring module (not shown) for rotating the rotating body according to the effective length of the rotating body and the opening degree measuring chamber 120 to which the opening degree measuring chamber 120 is unwinded and wound. It is desirable to.

The optical encoder 140 measures the amount of rotation of the rotating unit 130. The optical encoder 140 is a device for detecting the position of the rotor and controlling the speed and the position of the rotating body. The rotary shaft of the optical encoder 140 is coupled with the rotary shaft of the rotary unit 130 to rotate together when the rotary unit 130 rotates to generate a pulse train, and thus the position value of the rotary unit 130 can be known. Optical encoders include absolute encoder and relative encoder. Absolute encoder can know the current position as absolute value and relative encoder can count the current position. Or you can count the current absolute position by using other devices.

Accordingly, the optical encoder 140 measures the position of the rotating unit 130 to measure the length of the rotating unit 130, and the length of the rotating unit 130 is the effective length of the opening 120 for measuring the opening degree. Since it corresponds to the amount of change it can be used to measure the opening rate of the air control valve (not shown). Since the optical encoder 140 is a linear variable differential transformer (LVDT) method, the optical encoder 140 converts the position value of the rotating unit 130 into an electrical signal and outputs the electrical signal.

The air pressure measuring unit (not shown) measures the air pressure of the air control valve (not shown) when the opening degree is calculated based on the amount of rotation of the rotating unit 130 from the optical encoder 140. The air pressure measuring unit (not shown) measures the air pressure by using the opening point of the air control valve (not shown) as 5 points, and the air pressure measuring unit (not shown) is the opening rate of the air control valve of the air control valve (not shown). If 0%, 25%, 50%, 75% and 100%, respectively, measure the air pressure of the air control valve (not shown).

Air pressure measuring unit (not shown) can measure the air pressure when the opening rate of the air control valve is 0%, 25%, 50%, 75% and 100%, it is measured to check the air control valve (not shown) By comparing the measured air pressure value with the measured standard air pressure value, it is possible to check whether there is an abnormality of the air control valve (not shown).

Referring to FIG. 2, a magnet part 150 capable of fixing the air control valve checking apparatus 100 to an air control valve (not shown) is illustrated. In FIG. 2, the fixing unit 110 and the magnet unit 150 are located at different sides, but the air control valve (not shown) and the fixing unit 110 are connected to each other, and the magnet unit 150 is connected to the air control valve (not shown). It is more preferable to be located on the same side in order to attach to).

Those skilled in the art will appreciate that the present invention can be embodied in other specific forms without changing the technical spirit or essential features of the present invention. It is therefore to be understood that the above-described embodiments are illustrative in all aspects and not restrictive. The scope of the present invention is indicated by the scope of the following claims rather than the detailed description, and all changes or modifications derived from the meaning and scope of the claims and the equivalent concept are included in the scope of the present invention. Should be interpreted.

1 is a schematic perspective view of an apparatus for checking an air control valve according to an exemplary embodiment of the present invention.

Figure 2 is a schematic exploded perspective view of the air control valve check apparatus according to an embodiment of the present invention.

<Description of the symbols for the main parts of the drawings>

100: air control valve check device 110: fixed part

120: seal for measuring the opening degree 130: rotating part

140: optical encoder section 150: magnet section

Claims (7)

In the air control valve inspection device for measuring the opening degree of the air control valve, A fixed part fixed to the air control valve, the position of which is changed depending on the vertical motion, the horizontal motion or the opening degree of the air control valve; One end is connected to the fixing part and the other end is connected to the rotating part, the opening degree measurement chamber for winding or unwinding the rotating part in accordance with the position change of the fixing part; A rotating part rotating according to a state in which the opening degree measuring thread is wound or unrolled; An optical encoder for measuring an amount of rotation of the rotating unit; Air pressure measuring unit for measuring the air pressure of the air control valve in accordance with the opening degree based on the rotation amount to confirm whether there is an abnormality of the air control valve; And And a magnet unit fixing the air control valve check device to the air control valve. The method of claim 1, The opening degree measurement yarn, Air control valve check device, characterized in that the nylon material. The method of claim 1, The opening degree measurement yarn, Air control valve check device, characterized in that the effective length is changed based on the movement of the fixing part. The method of claim 3, The effective length of the yarn for measuring the opening degree is Air control valve check device, characterized in that the length from the fixed portion to the rotating portion. The method of claim 1, The rotating part, A rotating body in which the opening degree measuring thread is unwinded and wound; And And a spring module configured to be wound or unwound on the rotating body according to the length of the opening measuring rate chamber. The method of claim 1, The optical encoder unit, Air control valve check device, characterized in that the contact type displacement measuring sensor (LVDT, Linear Variable Differential Transformer). The method of claim 1, The air pressure measuring unit, The air control valve check device, characterized in that for measuring the air pressure when the opening rate of the air control valve is 0%, 25%, 50%, 75% and 100%.

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