KR20120071427A - Inspection device and method for spool valve - Google Patents

Abstract

PURPOSE: A device and a method for inspecting a spool valve are provided to inspect all products or samples for confirming whether the products are driven according to a design condition, thereby providing a spool valve of an excellent quality. CONSTITUTION: A device for inspecting a spool valve comprises a jig, a pneumatic pressure generator(400), a pressure control valve(320), a pressure gauge for a driving pressure port(220), a nozzle(120) for the driving pressure port, a valve for an input port(330), a pressure gauge for the input port(230), a nozzle for the input port(130), and an alarming member(500). The jig fixes a spool valve. The pressure control valve is connected to the pneumatic pressure generator and supplies pneumatic pressure to the driving pressure port by controlling the pneumatic pressure. The pressure gauge for the driving pressure port measures the pneumatic pressure of the driving pressure port. The nozzle for the driving pressure port can be connected to and released from the driving pressure port. The pressure gauge for the driving pressure port measures the pneumatic pressure of the input port. The alarming member alarms when a pneumatic pressure change of the input port according to a pneumatic pressure change of the driving pressure port exceeds a design allowable range.

Description

Inspection Device And Method For Spool Valve

The present invention relates to a spool valve inspection apparatus and method, and more particularly, to a spool valve inspection apparatus and method for the whole or sample inspection of the operating state of the spool valve driven by the hydraulic pressure.

When designing a valve used to control the flow of the fluid, it considers not only the fluid characteristics such as pressure and flow rate at the input / output port, but also the driving source and the blocking method for blocking the input / output port.

After determining the type of valve suitable for the design conditions, flow analysis is performed by computer simulation, and then a plurality of test valves are manufactured and tested to meet the intended specifications.

In the case of a spool valve, a seal ring is installed between the spool inlet and the spool to prevent leakage.However, if there is a seal ring, there is a problem of friction and durability. It is often used with a tight adjustment of ˜50 μm. However, in the mass production system, it is very difficult to precisely manage such gaps, and accordingly, malfunctions frequently occur due to leakage, mixing of foreign substances, and the like.

In addition, in the case of the spool valve in which the spool is driven by the correlation between the spool drive pressure and the force of the spring, the elastic modulus of the spring must also be set precisely. In this case, the spring as well as the gap must be taken into consideration. There is a problem that is difficult to do.

In the present invention, in mass production of the spool valve, it is an object of the present invention to provide a spool valve of excellent quality by enabling a total inspection of whether each mass product is driven according to the design conditions.

Spool valve inspection device of the present invention

The driving force of the spool is determined by the pressure of the driving pressure port and the elastic force of the spring, and in the inspection device of the spool valve in which the input port and the output port communicate or are cut off according to the driving of the spool,

A jig for fixing the spool valve;

An air pressure generating device for providing air pressure;

A pressure regulating valve connected to the pneumatic pressure generator and configured to supply the driving pressure port by adjusting the pneumatic pressure;

A pressure gauge for a driving pressure port for measuring the air pressure of the driving pressure port;

A nozzle for a drive pressure port connectable to and released from the drive pressure port;

An input port valve configured to receive air of a predetermined pressure from the or separate air pressure generator and provide the air to the input port;

A pressure gauge for an input port for measuring the air pressure of the input port;

A nozzle for an input port connectable to and disconnectable from the input port;

It characterized in that it comprises an alarm means for informing the change in the air pressure of the input port according to the air pressure change of the drive pressure port is outside the design allowable range.

The jig is preferably transported to a testable position through a separate transport means.

The inspection method of the spool valve of the present invention

In the inspection method of the spool valve, the driving force of the spool is determined by the pressure of the driving pressure port and the elastic force of the spring, and the input port and the output port are connected or blocked according to the driving of the spool.

Securing the spool valve to a jig;

Coupling the drive pressure port and the input port with the drive pressure port nozzle and the input port nozzle, respectively;

Applying maximum air pressure to the drive pressure port to move the spool to the maximum movable position and then removing the air pressure to move the spool to the initial position;

Causing the valve for the input port to discharge air of a predetermined pressure;

Measuring the air pressure change of the input port while increasing the air pressure supplied to the drive pressure port;

Measuring a change in air pressure of the input port while reducing the air pressure supplied to the drive pressure port;

Alerting if the air pressure change of the input port according to the air pressure change of the driving pressure port is out of a design allowable range;

Interrupting air supply to the driving pressure port and the input port, and separating the nozzle for the driving pressure port and the nozzle for the input port from the driving pressure port and the input port; Characterized in that the made up.

In the present invention, in mass production of the spool valve, it is possible to supply the spool valve of excellent quality by enabling the whole or sample inspection whether each mass product is driven according to the design conditions.

1 is a schematic view showing a spool valve inspection apparatus of the present invention.
2 is a cross-sectional view for explaining a spool valve inspection method of the present invention.

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

The housing 10 of this embodiment spool valve 1 shown in FIG. 1 has a driving pressure port 20 to which a driving pressure for driving the spool 50 is supplied, and a fluid input to the spool valve 1. An input port 30 for receiving, an output port 40 through which fluid is discharged or shut off according to the operation of the spool valve 1, and the driving pressure port 20 / input port 30 / output port 40 ) Is provided with a spool actuator 12 which is machined to communicate with each other. In the spool operation part 12, a spool 50, a spring 60 for pushing the spool 50 toward the initial position, and a stopper 70 for supporting the reaction force of the spring 60 are provided. (See Figure 1.)

In the spool valve 1 of the present embodiment, the driving force of the spool 50 is determined by the difference between the pressure (driving pressure) of the driving pressure port 20 and the elastic force of the spring 60, and the driving pressure is increased to increase the spring 60. When larger than the elastic force of the spool 50 is pushed to the left by the driving pressure to communicate the input port 30 and the output port 40, when the driving pressure decreases the spool 50 is returned to the initial position and input The port 30 and the output port 40 are blocked from each other.

In order to implement the spool valve inspection apparatus and inspection method of the present invention, the spool valve is first fixed to a jig (not shown).

The driving pressure port 20 and the input port 30 combine the nozzle 120 for the driving pressure port and the nozzle 130 for the input port, respectively. Movement of each nozzle 120 and 130 is possible by a separate transfer device, even if the detailed description thereof will be omitted by those skilled in the art can be easily implemented. As the initial state, the spool 50 is stopped at an initial position that is moved to the rightmost side as shown in Fig. 2A by the elastic force of the spring 60. Thereafter, the maximum air pressure is applied to the driving pressure port 20 to move the spool 50 to the maximum movable position (FIG. As shown in FIG. 2 (a), the step of initially moving the spool 50 to the maximum movable position and then returning to the initial position is a fine foreign matter that may be mixed in the initial assembly process and interfere with the movement of the spool 50. This is to exclude the influence of the back.

Air pressure is supplied by a pneumatic pressure generating device 400, such as a pump or a pressure vessel equipped with a pump. Air pressure provided to the driving pressure port 20 is supplied by the pressure control valve 320 so that the pressure can be adjusted.

The air of a predetermined pressure generated by the pneumatic generator 400 or the separate pneumatic generator is supplied to the input port 30 of the spool valve 1 returned to the initial position through the input port valve 330. When the spool 50 is in the initial position, the input port 30 is supplied with air having the same pressure as that supplied to the valve 330 for the input port. Thereafter, when the air pressure supplied to the supply pressure port 20 is gradually increased, the spool 50 moves to the left to move to the position where the input port 30 and the output port 40 communicate with each other. (c)) When the input port 30 and the output port 40 communicate with each other, the air pressure of the input port 30 is reduced because the air supplied to the input port 30 is discharged to the atmosphere through the output port 40 Done. When the degree of decrease in the air pressure of the input port 30 according to the increase in the air pressure of the driving pressure port 20 is measured through the driving pressure port pressure gauge 220 and the input port pressure gauge 230, the driving pressure port and the input pressure are measured. Correlation of each air pressure of the port can be obtained, and it can be seen whether the measured air pressure value is within the design allowable range.

The alarm means 500 has a function to inform when the air pressure measurement value is not within the design allowable range. That is, the alarm means memorizes the range of the allowable correlation between the driving pressure port air pressure and the input port air pressure, and if it is out of this range, it is possible to notify the user through a monitor or a warning light. Such alarm means include an input means for receiving a pressure value from a pressure gauge, a comparison means for storing a correlation allowed by design and comparing the measured pressure value, and a notification means for notifying when the deviation is out of the allowed correlation. Is done. Since the alarm means can be easily implemented in a form necessary by those skilled in the art by an a / d converter, a microprocessor, a detailed description thereof will be omitted.

When the air pressure of the driving pressure port 20 is decreased again, the input port 30 and the output port 40 start to be gradually blocked, and the air pressure of the input port 30 gradually increases. In this case, too, if the pressure is measured through the pressure gauge 220 for the driving pressure port and the pressure gauge 230 for the input port, a correlation between the respective air pressures of the driving pressure port and the input port can be obtained, and this air pressure measurement value is allowed by design. You can see if you are in range. The measurement of the air pressure of each port while reducing the air pressure of the driving pressure port as described above is to confirm whether the communication degree of the input / output port has a correspondence relationship between the valve opening and closing.

In this case, the alarm means should check whether the air pressure of each port is within the design allowable range, and let the user know when it is out of the design allowable range.

When the air pressure of the driving pressure port 20 is removed, the spool is returned to the initial position as shown in FIG. 2 (a), and then the nozzles 120 and 130 for each port, which are coupled to the respective ports 20 and 30, are removed. .

After the inspection, the valve is transferred to the next assembly process by a separate conveying means (not shown) such as a conveyor or a rail, and a large amount of valves can be quickly inspected by allowing the new valve to be transferred to the inspection position. Will be.

In addition, as shown in FIG. 2, when the second input / output ports 30 'and 40' are provided, the design allowable range can be measured by measuring the air pressure of the second input port 30 'in the manner described in the above embodiment. It is also possible to check if there is one.

DESCRIPTION OF SYMBOLS 1 Spool valve 10 Housing 20 Drive pressure port 30 Input port
40: output port 50: spool 60: spring
120: nozzle for drive pressure port 130: nozzle for input port
220: pressure gauge for drive pressure port 230: pressure gauge for input port
320: pressure control valve 330: input port valve
400: air pressure generator 500: alarm means

Claims (3)

The driving force of the spool is determined by the pressure of the driving pressure port and the elastic force of the spring, and in the inspection device of the spool valve in which the input port and the output port communicate or are cut off according to the driving of the spool,

A jig for fixing the spool valve;

An air pressure generating device for providing air pressure;
A pressure regulating valve connected to the pneumatic pressure generator and configured to supply the driving pressure port by adjusting the pneumatic pressure;
A pressure gauge for a driving pressure port for measuring the air pressure of the driving pressure port;
A nozzle for a drive pressure port connectable to and released from the drive pressure port;

An input port valve configured to receive air of a predetermined pressure from the or separate air pressure generator and provide the air to the input port;
A pressure gauge for an input port for measuring the air pressure of the input port;
A nozzle for an input port connectable to and disconnectable from the input port;

Spool valve inspection apparatus characterized in that it comprises an alarm means for informing if the change in the air pressure of the input port according to the change in the air pressure of the drive pressure port.
The spool valve inspection apparatus according to claim 1, wherein the jig is transferred to a testable position through a separate transfer means.
In the inspection method of the spool valve, the driving force of the spool is determined by the pressure of the driving pressure port and the elastic force of the spring, and the input port and the output port are connected or blocked according to the driving of the spool.

Securing the spool valve to a jig;

Coupling the drive pressure port and the input port with the drive pressure port nozzle and the input port nozzle, respectively;

Applying maximum air pressure to the drive pressure port to move the spool to the maximum movable position and then removing the air pressure to move the spool to the initial position;

Causing the valve for the input port to discharge air of a predetermined pressure;

Measuring the air pressure change of the input port while increasing the air pressure supplied to the drive pressure port;

Measuring a change in air pressure of the input port while reducing the air pressure supplied to the drive pressure port;

Alerting if the air pressure change of the input port according to the air pressure change of the driving pressure port is out of a design allowable range;

Interrupting air supply to the driving pressure port and the input port, and separating the nozzle for the driving pressure port and the nozzle for the input port from the driving pressure port and the input port; Spool valve inspection method comprising a.

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