KR102037525B1 - Pressure switch for air powered oil pump - Google Patents

Abstract

The present invention relates to a pressure switch having a relief function for an air pressure hydraulic device.
The conventional hydraulic switch detects the abnormal signal by detecting the hydraulic force by the forward and backward operation of the lever of the sensing port connected to the limit switch. The mechanical lever and the electrical contact switch are integrated into a structure, and the micro levers and oil stains inevitably generated during long time use in the installation site are entangled and the mechanical levers and switches are contaminated. Therefore, problems that often inevitably fail to operate as the use period elapses are often the main cause of system failure.
The present invention seeks to improve the above disadvantages,
Sensing pressure reference value setting section for setting the reference value for detecting abnormal pressure of the hydraulic pressure of the hydraulic system operating, if the position change of the signal generation port is generated by the hydraulic force supplied from the system, the position shifted signal is generated. When the sphere deviates from the set reference value of the detection pressure reference value setting unit, the pressure detection unit consisting of a signal detection unit for detecting the signal generated and transmitted to the outside, and a body unit 250 having a built-in detection pressure reference value setting unit and a signal detection unit ( P),
Holding pressure setting part to set the pressure allowance of the system, Inner body formed with a chamber to guide the lifting and lowering operation of the spring retainer poppet and poppet valve piston in response to the pressure change of the system, and the opening and closing operation in response to the supply oil pressure. A pressure switch having a pressure relief function for an air pressure hydraulic device including a poppet valve portion and a pressure holding portion (R) including a holding pressure body portion having a hydraulic supply port and relief ports installed.
The present invention precisely controls the hydraulic force of a system operating with hydraulic pressure within a certain error range to prevent possible malfunctions and safety accidents of the system.
The present invention makes it possible to control the ultra-precise pressure with a precise setting by the pressure sensing section and the pressure holding section which can finely adjust the prescribed pressure value. Therefore, it is possible to realize the functions of miniaturization and precision control required for semiconductor equipment and robot equipment that need ultra precision control.
According to the present invention, the pressure switch and the relief valve to be installed separately are configured in one configuration, thereby reducing the installation space, thereby enabling efficient use of the space.
The present invention further achieves miniaturization and precision by using signal generation and detection means such as magnetic force, light, and sound waves, without the installation of a conventional limit switch and a drive lever to detect abnormal pressure. These signal detectors were installed in a non-exposed state to fundamentally block malfunctions caused by pollution in the field.

Description

Pressure switch with pressure relief for air pressure hydraulics

The present invention relates to a pressure switch having a pressure relief function for an air pressure hydraulic device.

More specifically, the present invention is a pressure relief function that can detect the pressure lower than the prescribed pressure in the air pressure hydraulic device, and also to maintain the pressure at the specified pressure to prevent the malfunction or damage of the device in the case of pressure above the prescribed pressure It relates to a pressure switch having a.

Hydraulic force is used to easily move the fixed clamp of the mold of the press apparatus or the injection molding apparatus, or the movement of the mold and the vertical reciprocating operation or the forward and backward movement. Especially in the case of QDC (Quick Die Changing) system, the heavy die must be exchanged quickly and accurately, and the press or injection operation must be continuously performed.

As shown in Figure 1a and 1b, the hydraulic device installed in the conventional device is a valve device consisting of a pressure switch (P), a switching valve (V) and a solenoid valve (S) at the top of the hydraulic storage tank (Tank) at the bottom, It has a structure in which the pump Pu which supplies a pressure to this valve apparatus, and the pressure gauge G which can visually confirm the pressure supplied to the said switching valve. In addition, a filter F for purifying the supplied air and a storage scale for checking the hydraulic level of the hydraulic storage tank are provided.

In the hydraulic device having the above-described configuration, it is essential for accurate operation to maintain a pressure value in which the hydraulic force for the operation of the various devices is defined within an error range. In other words, if it is less than the specified pressure value, the pressure switch operates, and if it is higher than the specified pressure value, a relief valve that can control the elevated pressure should be separately installed.

As shown in Fig. 1C, the pressure switch sets the maximum value of the pressure required by the knob switch No for manually setting the prescribed pressure on the upper portion. Whether or not such a pressure value is set correctly is as shown in Figs. 1A and 1B and the hydraulic pressure is manually set while observing the hydraulic pressure gauge G.

More specifically, as shown in FIG. 1D, the lifting and lowering detection tool 101 is installed to be elastically supported by the spring 102 inside the body part 100, and the detection device is provided with an external sensing device (mainly Limit switch 110}. In the lower part, a pressure supply port 105 through which the system pressure of the hydraulic system is supplied is installed. A groove 103 is formed at the side of the sensing port, and the sensing button 111 of the limit switch is inserted therein. The pressure switch of such a configuration changes the position of the sensing port 101 as an arrow by the spring when the system pressure is lowered below the pressure set to the prescribed value. If this change is more than a certain value, power on / off operation occurs in the connected sensing device. Therefore, based on the signal generated from the limit switch, the flashing signal, sound, etc. is generated from outside, or the system is stopped. It was configured to lead to.

The conventional hydraulic switch detects the abnormal signal by detecting the hydraulic force by the forward and backward operation of the lever of the sensing port connected to the limit switch. The mechanical lever and the electrical contact switch are integrated into a structure, and the micro levers and oil stains inevitably generated during long time use in the installation site are entangled and the mechanical levers and switches are contaminated. Therefore, problems that often inevitably fail to operate as the use period elapses are often the main cause of system failure.

Due to the characteristics of the mechanical structure, the conventional hydraulic switch must secure a space for the operation of the lever, a space for installing and fixing the switch, and securing such a space eventually leads to an increase in the total volume, which requires miniaturization and precision. There is a disadvantage that it is difficult to meet the demand.

In addition, the disadvantage of the conventional hydraulic device is that after installing the hydraulic switch (P) separately to install a separate relief valve for automatically removing the high pressure generated when a high pressure above the specified pressure between the pressure switch and the switching valve of the narrow installation position Must be installed. This installation eventually takes up external space and leads to an increase in the volume of the device itself. With this increase in volume there is a difficulty in the installation of complex conduits.

Sudden high pressure during high-speed die operation, such as the QDC system, can cause damage to the entire system by shocking various valves installed to withstand the specified pressure. In spite of these problems, as mentioned above, the difficulty and space constraints of the relief valve installation are checked manually with little use, which leads to injury and loss of workers as well as damage to the device and serious accidents. ..

Another disadvantage is that, in the case of a robot automation system or a semiconductor device requiring high precision, the control of the hydraulic switch is set through an analog visual confirmation means called a pressure gauge, even though precise control of micro units is required. However, there are disadvantages in that it is difficult to meet the demand of ultra precision miniaturization.

The present invention is to provide a pressure switch for the air pressure hydraulic device, which can maintain the optimum hydraulic force in response to the change of the lower limit or the upper limit by simultaneously detecting the pressure of the upper and lower limits of the prescribed pressure value optimized for the system.

In particular, the present invention provides a pressure sensing unit for detecting a pressure outside the tolerance range of the hydraulic force supplied to the system and signaling the user to recognize it, and at the same time stopping the working system if necessary, and in the case of pressure above a prescribed pressure, To provide a pressure switch including a relief function to adjust the pressure to the specified pressure to prevent malfunction or damage of the device.

The present invention is to provide a pressure switch that can be set precisely while looking at the graduation display that can be seen with the naked eye in particular in setting the prescribed pressure.

The present invention further provides a more precise hydraulic device by precisely setting and controlling the allowable pressure sensing range by precise sensing as well as setting a minute prescribed pressure value in micro units by installing a non-contact sensor instead of a mechanical sensor in the pressure sensing unit. To provide a pressure switch.

The present invention further goes to the use of signal generating means such as non-contact light, magnetic force, ultrasonic waves, and means for sensing the same, without using a mechanical limit switch and a lever device for its operation in setting and sensing the specified pressure value. Accordingly, the present invention aims to provide a pressure switch capable of miniaturizing and minimizing a detection device and particularly preventing a malfunction caused by contamination.

The present invention seeks to solve the above disadvantages.

Sensing pressure reference value setting section for setting the reference value for detecting abnormal pressure of the hydraulic pressure of the hydraulic system operating, if the position change of the signal generation port is generated by the hydraulic force supplied from the system, the position shifted signal is generated When the sphere deviates from the set reference value of the detection pressure reference value setting unit, the pressure detection unit comprising a signal detecting unit for detecting the signal generated and transmitted to the outside, and a body unit having a built-in detection pressure reference value setting unit and a signal detection unit,

Holding pressure setting part to set the pressure allowance value of the system, Inner body formed with a chamber to guide the lifting and lowering operation of the spring retainer poppet and poppet valve piston in response to the pressure change of the system, and the opening and closing operation in response to the supply hydraulic pressure. A pressure switch with a pressure relief function for an air pressure hydraulic device including a poppet valve part and a pressure holding part comprising a holding pressure body part provided with hydraulic supply ports and relief ports has been developed.

In addition, the pressure sensing unit,

Sensing pressure reference value setting unit for setting the reference value to detect the hydraulic pressure of the system operating by the hydraulic pressure, to detect abnormal pressure,

Signal detection unit for detecting the position variation of the signal generation port 223 by the hydraulic pressure supplied from the operating system, and detecting a signal generated when the set reference value of the detection pressure reference value setting part deviates;

And a body part including the sensing pressure reference value setting part and the signal sensing part and a port for supplying and discharging hydraulic pressure.

The sensing pressure reference value setting unit

Adjusting screw installed on the outside of the body,

Signal generating control rod, which is moved up and down by the adjustment operation of the adjustment screw,
Upper and lower fixing tool for fixing the setting position of the valve piston by raising and lowering by the adjustment operation of the signal generating control rod

A valve piston, which is supported by a spring at a distance from the upper limit fixture and installed to extend a part of the piston under the body portion,

And it consists of a signal generation port for transmitting a signal while changing the position according to the rising and falling of the valve piston.

Pressure holding unit,

Holding pressure setting section for setting the maximum pressure allowable value required for the operation of the system,

The spring retainer poppet and the poppet valve piston, which are moved up and down in conjunction with the adjustment operation of the holding pressure adjusting screw of the holding pressure setting part, are disposed between the spring retainer poppet and the poppet valve piston to guide the lifting and lowering operation of the poppet valve piston. Inner body consisting of guide chamber,

Poppet valve unit comprising a valve body installed on the valve seat of the poppet valve piston,

The holding pressure setting part, the poppet valve piston and the poppet valve are built in, and a hydraulic supply port and a relief port are installed on the side, and a holding pressure supply path and a holding pressure connection path for supplying hydraulic pressure to the holding pressure lifting chamber and the poppet valve part. It consists of a holding pressure body portion formed.

The present invention precisely controls the hydraulic force of a system operating with hydraulic pressure within a certain error range to prevent possible malfunctions and safety accidents of the system.

According to the present invention, when an operating hydraulic pressure below a specified pressure value is detected, an abnormal state of the hydraulic force is immediately signaled to the control center of the system to enable immediate response and at the same time when an operating hydraulic pressure above the prescribed pressure value is detected. The excess high pressure was immediately removed from the operating pressure of the system, thus blocking various possible safety incidents.

The present invention enables ultra-precision pressure control with a precise setting by means of a sensing pressure reference value setting section and a holding pressure setting section that can finely adjust the prescribed pressure value. Therefore, it is possible to realize the functions of miniaturization and precision control required for semiconductor equipment and robot equipment that need ultra precision control.

According to the present invention, the pressure switch and the relief valve to be installed separately are configured in one configuration, thereby reducing the installation space, thereby enabling efficient use of the space.

The present invention solves all the various disadvantages of visual installation by precise setting when employing a stepper motor or a DC / AC motor, especially in the setting of hydraulic force, so that it can be used for remote control and unmanned automation.

The present invention eliminates the configuration of mechanical drive levers and limit switches that operate together with signals such as light, sound waves, and magnetic force, which are non-contact signals, in particular in detecting pressure abnormal operation outside the specified pressure value tolerance. In addition, ultra-precision miniaturization is possible, and the source of malfunction due to pollution is fundamentally blocked.

Figure 1a is a physical picture of the drawing stand of the conventional air pressure hydraulic device,
Figure 1b is a physical picture of the drawing stand of another conventional air pressure hydraulic device,
Figure 1c is a physical picture of the drawing stand of the conventional hydraulic switch for air pressure hydraulic device,
1d is a cross-sectional view of a conventional hydraulic switch,
2 is a perspective view showing the whole of the present invention;
3 is an exploded perspective view of the present invention;
4 is a cross-sectional view of the present invention;
5 is a cross-sectional view of a state in which the pressure detecting unit and the pressure holding unit of the present invention are separated;
6A, 6B, 6C, and 6D are cross-sectional views sequentially showing operation states of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the present invention, the hydraulic pressure means compressed pressurized oil. Air pressure hydraulic device in the present invention means a device for amplifying the hydraulic pressure by applying the pneumatic, and is called in the art as a pressurized air-driven hydraulic pump, a hydro unit (Hydro unit) hydraulic pump, in the present invention, air pressure hydraulic Uniformly named as the device. This nomenclature does not limit the technical scope of the present invention.

Embodiments presented in the present invention are illustrated in the drawings and will be described in detail in the detailed description. It is to be understood that the illustrations are not intended to limit the invention to specific embodiments, but include all changes, equivalents, and substitutes included in the spirit and scope of the invention. In describing the drawings, similar reference numerals are used for similar elements. Embodiments of the present invention may be directly connected to or connected to other components when the various components are said to be "connected", "communicated" or "connected" to other components. It should be understood that other components may exist in the middle. In particular, the present invention provides a conduit for continuously connecting liquid and gas, such as nipples, valves, gaskets, flangers, elbows, adapters, bushings, caps, O-rings, connectors, and T-pneumatic or water distribution conduits for connection between conduits. All of the parts used together are used together, even if there is no description of them are included in the technical scope of the present invention.

The terminology used herein is for the purpose of describing particular example embodiments only and is not intended to be limiting of the present invention. Singular expressions include plural expressions unless the context clearly indicates otherwise. In the present application, terms such as “comprise,” “comprise,” “comprise,” or “consist,” or the like exist in the specification, numbers, steps, operations, components, parts, or a combination thereof. It is to be understood that the present invention is intended to designate and does not exclude in advance the possibility of the presence or addition of one or more other features or numbers, steps, operations, components, parts or combinations thereof. Unless defined otherwise, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art.

An exemplary embodiment of the invention is shown in a perspective view of the assembled state of FIG. 2, and FIG. 3 is a perspective view of the disassembled state. 4 is a cross-sectional view, and FIG. 5 is a cross-sectional view of a state in which the pressure sensing unit and the pressure holding unit are separated.

In the present invention, the switch in the pressure switch is used in the sense that a certain pressure is out of the tolerance range, and senses the pressure, along with the signal generation function, with the switch function to block the transmission of pressure to the system operating by hydraulic power In addition, the hydraulic valve, the hydraulic control valve, has a signal switch function that transmits only the sensed signals other than what is also referred to collectively, and the selection of the terms does not limit the technical scope of the present invention.

According to the present invention, when the position change of the signal generation port occurs due to the hydraulic pressure supplied from the sensing pressure reference value setting unit 220, the hydraulic pressure supplied from the system sets a reference value capable of detecting an abnormal pressure of the operating hydraulic force of the hydraulically operated system. The signal detecting unit 230 which detects a signal generated when the signal generation port whose position shift is out of the set reference value of the sensing pressure reference value setting unit and transmits it to the outside, and a body unit having the sensing pressure reference value setting unit and the signal sensing unit embedded therein. Pressure sensing unit (P) consisting of 250,

A holding pressure setting unit 260 for setting a pressure allowance value of the system, an inner body 270 having a chamber for guiding the lifting and lowering operation of the spring retainer poppet and the poppet valve piston in response to the pressure change of the system, and the supply oil pressure It has a pressure relief function for the air pressure hydraulic device, including a pressure holding unit (R) made of a poppet valve unit 280 that opens and closes in response to the opening and closing, and a pressure supply unit 290 having hydraulic pressure supply ports and relief ports installed therein. It relates to a pressure switch.

 In the present invention, the pressure sensing unit (P),

Sensing pressure reference value setting unit 220 for setting a reference value to measure the hydraulic force of the system operating by the hydraulic pressure, to detect abnormal pressure,

Signal detection unit 230 for detecting a position variation of the signal generation port 223 by the hydraulic pressure supplied from the operating system, and detecting a signal generated when the deviation of the set reference value of the detection pressure reference value setting unit,

The body portion 250 includes the sensing pressure reference value setting unit and the signal sensing unit, and at the same time, a port for supplying and discharging hydraulic pressure is installed.

The sensing pressure reference value setting unit

Adjusting screw 221 installed on the outside of the body portion,

Signal generation control rod 222 to move up and down by the adjustment operation of the adjustment screw,

Upper and lower stopper 228 for raising and lowering by the adjustment operation of the signal generating control rod to fix the set position of the valve piston,

A valve piston 224, which is supported by a spring at a distance from the upper limit stopper and installed so that the piston body can be lifted and lowered in the holding pressure lifting chamber of the holding pressure body portion under the body portion;

And it consists of a signal generation port 223 for transmitting a signal while changing the position according to the rising and falling of the valve piston.

The adjusting screw is to set a prescribed reference value or reference tolerance value of the hydraulic force for the operation of the system. The adjusting screw can induce position shift by loosening and simmering the screw by the simplest bolt nut fastening method. In addition, by installing a device such as a separate DC / AC motor or a step motor not shown on the upper side of the adjustment screw, it is possible to set to a desired position remotely or by means such as a remote control device. This positioning can be changed at any time when the operating system is needed, which enables ultra-precision control of the hydraulically operated system with precise and accurate settings compared to the conventional manual and visually-dependent analog installation.

The signal generation port 223 of the sensing pressure reference value setting unit installs a position sensing means, for example, a variable resistor, on a built-in wireless transmitter or a sign to control a change value of a resistance value according to a position variation. After calculating the set value by sending to the device, it is possible to send the calculated value to the system administrator. The position detection of the signal generating port can be used in contactless detection sensors such as light sensor, magnetic force sensor, pressure sensor, sound wave sensor, etc., and the selection of these sensors can be selected according to the installation location or the characteristics of the system. have. In other words, when an unauthorized modification of a set value occurs by another person to the system or an abnormal change of a set value due to an abnormal operation during operation is performed by a wireless receiving device of the administrator, most commonly by a text or various data communication network by a smartphone. To receive it. Transmit such a reference value or the detection signal value detected by the pressure sensing unit P described below or the relief operation signal of the pressure holding unit to the wireless receiver of the administrator to prevent possible malfunction and damage of the system as quickly as possible. It was made possible.

Signs may be displayed by light emitting devices such as LCDs and LEDs in addition to the physical sliding indicator rods, and may employ all visually identifiable display means.

The signal detection unit 230 of the pressure detection unit (P)

Adjusting means 231 for setting the detection position for detecting the operating pressure of the system from the upper side of the body portion,

Is engaged with the control mechanism, the signal sensing control rod 232 to move up and down according to the rotation operation of the control mechanism,

Screwed to the lower portion of the signal sensing adjustment rod, it consists of a signal sensing hole 233 for receiving the position change signal of the signal generating port and transmits it to the outside.

The signal detection zone is built in the signal detection chamber 235 that can guide the reciprocating operation of the detection sensor to raise and lower the signal detection adjustment rod to the axis. The signal sensing chamber is sealed to block the ingress of foreign substances.

Reference numeral 233a of the signal detection zone is an optical sound generating unit for generating light or sound so that the signal can be detected when the signal is detected, and 233b is a bolt fastening nut hole for preventing the position shift during operation of the signal detection zone.

The valve piston 224 of the sensing pressure reference value setting unit,

A valve body 224b that elastically supports the signal generation port 223 by a spring 226,

The piston body 224a extends from the lower side of the valve body and moves up and down in the holding pressure raising and lowering chamber 256 below the holding pressure body 290.

The valve body of the valve piston has a rod-like structure extending downwardly, and is inserted into the holding pressure lifting chamber 256 of the pressure holding part, and is supplied with the operating oil pressure of the system, and the valve piston according to the strength of the operating hydraulic force is The lifting and lowering operation is performed.

The signal generation port 223,

It is elastically supported by the signal-generating control rod 222 of the sensing pressure reference value setting part, the upper limit fixture 228 and the spring 226 screwed in,

The lifting and lowering operation is performed in conjunction with the lifting and lowering operation of the signal generation control rod.

The range of the detection reference value is set by adjusting the signal detection adjusting rod so that the signal generated from the signal generation port can be received in the signal detection port 233 in a predetermined setting range. Therefore, if the hydraulic pressure of the system operating by hydraulic pressure is out of the set reference value or vice versa, the detection pressure reference value setting part is set to detect the signal cut off or vice versa. The user adjusts and installs to match the position.

More specifically, the signal generation port 223 set in the detection pressure reference value setting unit is arranged to detect a signal of the signal generation port in the signal detection hole 233 made of a signal detection sensor, and the position where the signal generation port is set. The signal is generated when it is out of. Alternatively, on the contrary, it is isolated and installed at a certain distance from the signal generation port, and the signal detection zone detects a signal when the signal generation port approaches. Signal detection sensors can be used with the sensors installed in the signal generator, such as magnetic sensors, optical sensors, ultrasonic sensors, vibration sensors, etc., and contactless sensors can be used. It is possible and not particularly limited. In the present invention, the most economical, yet simple to operate and install a magnetic sensor.

 In addition, a device such as a separate DC / AC motor or step motor, not shown, may be provided on the upper side of the signal generation port, and may be set to a desired position remotely or by means such as a remote control device. This positioning can be arbitrarily changed whenever the operating system is needed, which enables ultra-precision control of the hydraulically operated system with a precise and accurate setting as compared to the analogue installation by conventional manual naked eyes.

Pressure holding unit (R) of the present invention,

Holding pressure setting section 260 for setting the maximum pressure allowable value required for the operation of the system,

Between the spring retainer poppet 284 and the poppet valve piston 283, the spring retainer poppet 284 and the poppet valve piston 283 which are raised and lowered in conjunction with the adjustment operation of the holding pressure adjusting screw 261 of the holding pressure setting part. Inner body 270 consisting of a spring 282 disposed in the guide and a guide chamber 277 for guiding the lifting and lowering operation of the poppet valve piston,

Poppet valve portion 280 including the valve body installed on the valve seat of the poppet valve piston,

The holding pressure setting part, the poppet valve piston and the poppet valve are built in, and the hydraulic supply port 252 and the relief port 291 are installed at the side, and supply the hydraulic pressure to the holding pressure raising chamber 256 and the poppet valve part. It consists of a holding pressure body 290 for forming a holding pressure connection path 251 and a holding pressure supply path 253 for.

The holding pressure setting unit 260,

Holding pressure adjusting screw 261 constructed by screwing method,

The holding pressure adjusting rod 262 moves up and down by the operation of loosening and tightening the holding pressure adjusting screw. The holding pressure adjusting screw is configured in the form of screw fastening, but the precision setting is possible by the DC motor and the step motor as in the reference value setting unit of the pressure holding unit, and the setting operation can be controlled by a control device not shown. The spring 282 is installed between the lower side of the spring retainer poppet 284 and the poppet valve piston 283 in contact with the lower end of the holding pressure adjusting rod, and configured to elastically support the poppet valve piston 283 installed on the lower side. It is configured to set the holding pressure arbitrarily by tightening and loosening the holding pressure adjusting screw.

The inner body 270 is,
A body part 271 having a fastening part for guiding the holding pressure adjusting rod of the holding pressure setting part to be lowered and lowered;

A guide chamber 277 for guiding the lifting and lowering operation of the spring retainer poppet 284 and the poppet valve piston 283 that elastically support the poppet valve piston by adjusting the holding pressure adjusting rod of the holding pressure setting part;

The outer side is composed of a fastening portion 278 for engaging with the inner side of the body portion.

The inner body is inserted into a relief chamber 292 for inducing hydraulic pressure to the inner relief port 291 of the holding pressure body portion 290.

The poppet valve unit 280,

Poppet valve piston (283) which moves up and down under the guide chamber of the inner body,
A spring 282 disposed between the spring retainer poppet 284 and the poppet valve piston;

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The valve body 281 opens or closes the holding pressure connection path 251 in accordance with the lifting and lowering operation of the poppet valve piston.

The holding pressure body portion 290,

Hydraulic supply port 252 receives the hydraulic pressure in operation from the system operating by the hydraulic force,

A holding pressure lifting chamber 256 for guiding the lifting operation of the valve piston 224 while supplying the hydraulic force of the oil pressure supply port to the pressure sensing unit;

Retention pressure connection path 251 for supplying the hydraulic force supplied from the hydraulic pressure supply port to the poppet valve unit,
Holding pressure supply passage 253 for supplying the hydraulic pressure supplied from the hydraulic supply port to the holding pressure elevating chamber 256,

A relief port 291 for discharging the excessively supplied hydraulic force to maintain the prescribed pressure is formed.

The hydraulic pressure supply port is connected to the hydraulic pressure of the system by the assembly for connecting the port not shown. The holding pressure elevating chamber is configured such that the rod-shaped piston body 224a extending from the valve element of the pressure sensing unit can be raised and lowered. This configuration causes the piston to rise and fall in response to the elevation of the hydraulic force supplied from the system. The induction of the lowering allows the opening and closing of the valve so that the necessary malfunction signal can be tracked and transmitted.

Hereinafter, the operation of the present invention will be described with reference to Figs. 6A to 6D.

When the hydraulic switch of the present invention is installed in the system for the operation of the system, it is shown in FIG. 6A when the hydraulic pressure for the operation of the system is not initially supplied.

As shown in the drawing, the hydraulic pressure through the hydraulic supply port 252 prevents the elasticity of the spring 226 supporting the valve piston 224 and the upper limit fixture 228 from the supply of the initial operating hydraulic pressure. Since it is not enough, the valve piston is disposed at a predetermined distance from the signal generation adjusting rod as shown in FIG. 6A. When the system starts to operate, the hydraulic pressure of the system through the hydraulic supply port pushes the springs up and the valve piston rises as shown by an arrow as shown in FIG. 6B. Even if the lift is made, if the upper end of the valve piston is in contact with the signal generating rod, further rise is kept blocked. The above rise of the valve piston also raises the signal generating port 223 which cooperates with the raising operation of the valve piston, and observes signals such as magnetic lines and sound waves generated at the signal generating port within the range allowed by the signal detecting unit. As a result, a signal of abnormal operation is not transmitted from the signal detection unit.

When the hydraulic pressure is lowered due to various causes (for example, loss of hydraulic force due to partial breakage of the hydraulic conduit) while operating the system by the hydraulic force in this state, the valve piston is driven by the spring pressure. Descend as shown by the arrow. This falling operation is a method of communication by wired or wireless when the signal generated by the signal detection sensor shows a signal variation over a certain level according to the difference in signal intensity as it moves away from the signal detection sensor of the adjacent signal detection control rod or vice versa. It transmits to the control unit to inform of abnormal operation and prevents an accident by blocking the operation of the system.

On the contrary, when the operating hydraulic pressure rises to a high pressure above the allowable pressure value, as shown in FIG. 6D, the excessive hydraulic force supplied to the hydraulic supply port 252 is in communication with the holding pressure lifting chamber 256. It is supplied to the poppet valve through the holding pressure connection path 251. The hydraulic pressure supplied in this way pushes the pressure of the spring supporting the valve body 281 and induces the hydraulic force to be discharged to the relief port 291 through the relief chamber 292 by the movement of the valve body as shown by the arrow. When the hydraulic pressure is discharged by the discharge operation, when the pressure of the system is lowered, the valve body returns to its original position by the spring bearing force to maintain the normal pressure, thereby preventing damage or malfunction of the system by the excessive hydraulic force generated in the system. Will be prevented.

P: pressure sensing unit, R: pressure holding unit 220: sensing pressure reference value setting unit, 230: signal sensing unit, 250: body unit 260: holding pressure setting unit, 270: inner body, 280: poppet valve unit, 222: signal Generation control rod, 224: valve piston, 223: signal generation port, 251: hydraulic pressure connection path, 252: hydraulic pressure supply port, 253: hydraulic pressure supply path, 256: hydraulic pressure lifting chamber, 290: hydraulic pressure body, 291 : Relief port, 256: Oil pressure lifting chamber,

Claims (10)

Sensing pressure reference value setting section for setting a reference value for detecting abnormal pressure of the system operating hydraulic pressure,
Signal detection unit for detecting the signal generated when the position shift of the signal generating port is out of the set reference value of the detection pressure reference value setting unit by the hydraulic pressure supplied from the system,
And a pressure sensing unit including the sensing pressure reference value setting unit and a signal sensing unit, and a body unit having a port for supplying and discharging hydraulic pressure to the signal sensing unit.
Holding pressure setting section for setting the maximum pressure allowable value of the system operating hydraulic pressure,
Spring retainer poppet and poppet valve piston, which is moved up and down in conjunction with the adjustment operation of the holding pressure adjusting screw of the holding pressure setting portion,
An inner body consisting of a spring disposed between the spring retainer poppet and the poppet valve piston and a guide chamber for guiding the lifting and lowering of the poppet valve piston,
Poppet valve unit comprising a valve body installed on the valve seat of the poppet valve piston,
In addition, the holding pressure setting part, the poppet valve piston and the valve body are built in, and the hydraulic supply port and the relief port are installed at the side, and the holding pressure supply passage and the holding rolling for supplying the hydraulic pressure to the holding pressure elevating chamber and the poppet valve part. Pressure switch having a pressure relief function for an air pressure hydraulic device consisting of a pressure holding portion including a holding pressure body portion formed with condensation.
delete The method of claim 1,
Sensing pressure reference value setting part
Adjusting screw installed on the outside of the body,
Signal generation control rod that moves up and down by adjusting the adjustment screw,
An upper limit fixture for raising and lowering by the adjustment operation of the signal generating control rod to fix the set position of the valve piston;
A valve piston which is supported by a spring at a distance from the upper limit fixture and installed in a holding pressure lifting chamber of the holding pressure body,
And a signal generating port for transmitting a signal while changing a position according to the rising and falling of the valve piston.
The method of claim 1,
The signal detection unit of the pressure detection unit,
Adjusting means for setting the detection position for detecting the operating pressure of the system from the upper side of the body,
It is engaged with the control operation of the control mechanism, the signal sensing control rod that moves up and down according to the rotation operation of the control mechanism,
Pressure switch having a pressure relief function for the air pressure hydraulic device, characterized in that it comprises a signal sensing screw screwed to the lower portion of the signal sensing adjustment rod.
delete delete The method of claim 1,
The holding pressure setting part is a holding pressure adjusting screw configured by screwing, a holding pressure adjusting rod which moves up and down by loosening and tightening the holding pressure adjusting screw, and a spring retainer poppet and poppet valve contacting the lower end of the holding pressure adjusting rod. A pressure switch having a pressure relief function for an air pressure hydraulic device, comprising a spring provided between the piston.





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