KR100736772B1 - Proportional control valve with pzt actuator - Google Patents

Abstract

A proportional control valve with a PZT actuator is provided to adapt the proportional control valve to a semiconductor industry and a home automation field as well as a general industry through a simple structure. A proportional control valve with a PZT actuator includes a valve body(7), a poppet(20), a poppet seat(23), a balance spring(22), a diaphragm(24), a control nozzle(2), and a controller(15). The valve body has an inlet port disposed at one side thereof and an outlet port disposed at the other side. The poppet is seated on the poppet seat. The balance spring is disposed at a load response part(25) to be fixed to a lower part of the poppet. The diaphragm is coupled to an upper part of the poppet to be connected to the control nozzle. The controller is disposed to be connected to the PZT actuator and power supply terminals(16a,16b) to control an amount of fluid in proportion to a voltage applied to the PZT actuator.

Description

Piezoelectric Proportional Valve {Proportional Control Valve With PZT Actuator}

1 is a cross-sectional view of a conventional threaded piezoelectric valve.

Figure 2 is a cross-sectional view of a conventional spool adjustable piezo valve.

3 is a cross-sectional view of a piezoelectric proportional control valve according to the present invention.

Figure 4 is an operating state diagram of the piezoelectric proportional control valve according to the present invention.

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

1: piezoelectric actuator 1a: control space part

2: control nozzle 7: valve body

14 Connector 15 Controller

16a, 16b: power supply terminal 17: control pilot

18: secondary pilot 19: load-sensitive pilot

20: poppet 21: spring for the piezo actuator

22: balance spring 23: poppet seat

24: diaphragm portion 25: load sensitive portion

26: Balance spring adjustment cap A: Inlet port

B: Exit port

The present invention relates to a valve for proportionally controlling a large flow rate by using a piezoelectric actuator as a pilot controller, and more particularly, in proportion to an input voltage supplied to the piezoelectric actuator through a proper combination of a bender-type piezoelectric actuator and a spring. The displacement of the piezoelectric actuator occurs, and the displacement of the diaphragm portion is changed according to the proportional displacement of the piezoelectric actuator. As a result, the displacement of the flow control poppet is generated, and the piezoelectric for proportionally controlling the flow rate from the inlet port to the outlet port. It relates to a proportional control valve.

Conventionally, the proportional flow control was performed using an electronic system. However, valves using a new functional actuator have recently been used due to a problem of deterioration of the suction force due to temperature rise, deterioration of the actuator due to abrasion of the plunger, and a large volume. It is proposed.

1 and 2 show an example of a valve to control the flow rate to the piezoelectric method to replace the solenoid method, Figure 1 is a type in which the flow rate is adjusted only by the displacement of the piezoelectric actuator purely, Figure 2 is a piezoelectric actuator First of all, it will be described in detail as a valve of the type that controls the flow displacement by moving the spool properly.

First, the control nozzle 2 of FIG. 1 has a flow rate corresponding to the displacement generated according to the voltage supplied to the piezoelectric actuator 1 in a state in which the control nozzle 2 is fixed to the valve body 7. As a valve for controlling the flow to the outlet 6, in the state shown in FIG. 1, the flow rate flows from the fluid inlet 5 to the fluid outlet 6, but when the power is applied to the piezoelectric actuator 1, the piezoelectric actuator 1 The displacement occurs until the control nozzle 2 is blocked, and the flow of fluid stops. The screw 4 located above the piezoelectric actuator 1 directly contacts the piezoelectric actuator 1 to limit the maximum displacement or even if the sudden impact pressure from the fluid inlet 5 acts on the control nozzle 2. This valve is designed to prevent damage to (1), but this valve can deliver only a small amount of flow rate, and the piezoelectric actuator (1) itself has a very poor proportional performance, and the piezoelectric actuator (1) is screwed (4). Since it directly operates, the piezoelectric actuator 1 has a problem of scratching and eventually causing reliability problems.

FIG. 2 is provided with a spool 10 capable of freely adjusting the initial position of the valve body 7 in order to improve the scratching phenomenon, which is a problem in FIG. 1, and to improve control characteristics. ) Has the advantage of improving the accuracy of the initial assembly and easy determination of the flow control range. In the state where the piezoelectric actuator 1 is assembled first, the spool spring 12 and the spool 10 are assembled to the valve body 7, and the initial contact of the piezoelectric actuator 1 and the screw 4 using the screw 4 is performed. If the point is properly adjusted, the flow from the fluid inlet 5 to the fluid outlet 6 can be controlled very accurately. In the state as shown in FIG. 2, the piezoelectric actuator 1 blocks the control nozzle 2 so that the fluid inlet can be controlled. Although the flow rate from (5) does not flow to the fluid outlet 6, when a voltage is applied to the piezoelectric actuator 1, the piezoelectric actuator 1 causes the upward displacement, and the gap between the control nozzle 2 and the piezoelectric actuator 1 Falling fluid flows from fluid inlet 5 to fluid outlet 6. The piezoelectric valve shown in FIG. 2 serves to transfer a very low flow rate, and the O-rings 3 and 11 are used for each connection because leakage characteristics are very important, and this valve also has a bad proportional characteristic of the piezoelectric actuator 1 itself. Therefore, the flow rate cannot be obtained in proportion to the applied voltage, and the large flow rate cannot be obtained.

Recently, in the structure that cannot obtain the proportional flow control characteristics required by the industry, it is generally very difficult to upgrade the system, and in order to obtain a valve having excellent linearity and hysteresis characteristics using the structure shown in FIGS. It becomes very complicated, and thus problems arise in terms of price and reliability.

In order to solve the problems as described above, the present invention changes the displacement of the diaphragm portion in accordance with the proportional displacement of the piezoelectric actuator, the displacement of the flow control poppet occurs as a result of the proportional flow rate flowing from the inlet port to the outlet port By providing a valve that can be controlled automatically, the low power consumption characteristics of piezoelectric actuators save energy, improve the flow controllability through quick response, and not only the general industry but also the semiconductor and home automation through a simple structure. It is an object of the present invention to provide a piezoelectric proportional control valve applicable to the field.

In the structure to achieve the purpose,

The inlet port is formed on one side of the valve body and the outlet port on the other side, and the poppet for opening and closing the inlet and outlet ports penetrating into the valve body is seated on the poppet seat protruding into the valve body, and the spring for balance is located on the lower part of the poppet. It is located in the load-sensing part and fixed to the balance spring adjusting cap, and the upper part of the poppet is coupled to the diaphragm part is connected to the control space and the control nozzle is provided with a piezoelectric actuator, the controller is connected to the piezoelectric actuator and the power supply terminal It is provided in the upper portion, and controls the amount of fluid in proportion to the voltage applied to the piezoelectric actuator.

As another feature of the present invention, the proportional control is controlled by the adjustment of the force generated in the diaphragm portion and the force generated in the load sensitive portion according to the operation of the balance spring.

As another feature of the present invention, a control pilot connected to a diaphragm part is formed at one side of the inlet port, and a secondary part pilot connected to a control space part at one side of the outlet port, and a load sense connected to a load sensitive part. Type pilots are formed respectively.

As another feature of the present invention, the piezoelectric actuator for controlling the pressure of the diaphragm portion is mounted on the upper portion of the piezoelectric actuator so as to be in close contact with the control nozzle and induce a proportional performance of the piezoelectric actuator.

3 is a cross-sectional view of a piezoelectric proportional control valve according to the present invention, and FIG. 4 is an operation state diagram of the piezoelectric proportional control valve according to the present invention.

Hereinafter, the components will be described with reference to the drawings.

Figure 3 shows a cross-sectional view of the piezoelectric proportional control valve of the present invention, the piezoelectric proportional control valve is formed with an inlet port (A) on one side and the outlet port (B) on the other side, The poppet 20 for opening and closing the inlet and outlet ports A and B penetrating into the valve body 7 is seated on the poppet seat 23 protruding into the valve body 7, and the lower part of the poppet 20. The balance spring 22 is positioned in the load sensing unit 25 and fixed to the balance spring adjusting cap 26, and the diaphragm portion 24 is coupled to the upper portion of the poppet 20 to provide a piezoelectric actuator 1. Is connected to the control space (1a) and the control nozzle 2, which is connected to the piezoelectric actuator (1) and the power supply terminals (16a, 16b) is provided at the top, the piezoelectric actuator (1) Control the amount of fluid in proportion to the voltage applied to

The upper part of the controller 15 is provided with a connector 14 to be supplied with power from the outside to drive the controller 15 and to apply power through the power supply terminals 16a and 16b connected to the controller 15. The piezoelectric actuator 1 is controlled.

The proportional control is controlled by the adjustment of the force generated in the diaphragm portion 24 and the force generated in the load sensitive portion 25 according to the operation of the balance spring 22, the diaphragm on one side of the inlet port (A) The control pilot 17 is formed to be connected to the part 24, and the secondary part pilot 18 connected to the control space part 1a on one side of the outlet port B, the load sensitive part 25, A load-sensitive pilot 19 connected to each other is formed, and the piezoelectric actuator 1 for controlling the pressure of the diaphragm portion 24 is in close contact with the control nozzle 2 and at the same time proportional to the piezoelectric actuator 1. A spring 21 for piezoelectric actuator is mounted on the top to induce the performance.

When no power is applied to the piezoelectric actuator 1, the fluid flowing into the inlet port A is blocked by the piezoelectric actuator 1 and the diaphragm than the force of the balance spring 22. Since the force of the pressure applied to the part 24 is large, the poppet 20 blocks the poppet sheet 23 and does not flow through the poppet 20 to the outlet port B, and the pressure is supplied to the control pilot 17. As the pressure is applied to the diaphragm portion 24 along the passage, the poppet 20 is pressed, thereby blocking the flow path so that the flow rate does not flow to the outlet port B.

At this time, when a predetermined pressure is applied to the piezoelectric actuator 1, the pressure applied to the diaphragm portion 24 is weakened, and the poppet 20 rises up by the force of the balance spring 22, and the piezoelectric actuator ( 1) is moved upward by the force of the spring 21 for the piezoelectric actuator, the fluid of the inlet port (A) flows to the outlet port (B) between the poppet seat (23).

The more the tightening of the balance spring adjustment cap 26 fixed to the load sensitive portion 25, the more the compression of the balance spring 22 becomes stronger, so that the force of the balance spring 22 during operation of the piezoelectric actuator 1 increases. The more powerful the poppet 20 is lifted up, the larger the flow path becomes and the more fluid flows to the outlet port (B). Therefore, the amount of fluid can be adjusted according to the tightening strength of the balance spring adjusting cap 26.

In FIG. 3, the pressure at the inlet port A is P _S , the pressure at the diaphragm portion 24 is P ₁ , the pressure at the outlet port B is P _C , and the pressure at the load sensing unit 25 is P ₂ ,. The spring constant of the balance spring 22 is k _P , the initial displacement of the spring is χ _O , the actual displacement of the spring is χ _P , the cross-sectional area of the diaphragm portion 24 is A ₁ , and the cross-sectional area of the load sensitive portion 25 is A _2. In this case, the force balance is as shown in Equation [1], in which case there is no fluid flow.

If an arbitrary voltage is applied to the piezoelectric actuator 1, Equation [1] is changed to Equation [2], and the change in sign from Equations [1] and [2] is the diaphragm portion 24. ) shows that it is determined by the pressure P ₁ of the can, which piezoelectric actuator (1) and the control nozzle (2), the pressure P ₁ of the extremely sensitive diaphragm by opening distance section 24 can estimate that the change in have.

In addition, when the opening area of the poppet sheet 23 is A _S and the fluid coefficient is kg , the flow rate Q flowing through the opening area of the poppet sheet 23 is as follows.

It can be seen from Equation [3] that the proportional flow rate characteristics are easily obtained by controlling the opening area A _S of the poppet sheet 23. In the present invention, the displacement characteristics of the piezoelectric actuator 1 and the spring 21 for the piezoelectric actuators are shown. Proper combination of provides a proportional control valve with excellent linearity and hysteresis characteristics.

In addition, the flow rate leaking to the outside by the secondary pilot 18 of the control space portion 1a connected to the outlet port B and the load-sensitive pilot 19 of the load sensitive portion 25 It can be used without any at all, by installing the load sensing unit 25 in the lower portion of the poppet (20) can mitigate the fluctuations in the flow rate that can be changed by the temperature or by a sudden pressure change, and requires gas volume control It can also be used in systems that do

4 is a diagram illustrating an operation state of the piezoelectric proportional control valve according to the present invention. When the maximum voltage is applied to the piezoelectric actuator 1, the piezoelectric actuator 1 overcomes the force of the piezoelectric actuator spring 21 to move upward. At this time, a gap is generated between the piezoelectric actuator 1 and the control nozzle 2, so that the pressure of the diaphragm portion 24 drops and the relationship of the formula [2] is established. ) Flows through the poppet sheet 23 to the outlet port B.

As described above, the present invention can simplify the structure and save energy compared to the valve using the conventional solenoid, can be used stably at high temperature or dangerous chemicals and gases, and the existing simple on- The performance is improved in the piezoelectric valve of the off structure, so that the proportional control of the flow rate is possible, and thus it can be applied to the precision machinery field.

In addition, it is possible to control the flow rate from very small flow rate to large flow rate, and even in case of gas control system which has the risk of leakage, it can be used without any leakage by introducing the internal pilot method, and the load sensitive part installed under the poppet By controlling the flow rate by sensing the load by itself, it is possible to produce a constant flow rate proportional to the pressure voltage, and by adjusting the balance spring adjusting cap appropriately, the control flow rate area can be easily obtained.

Claims (4)

In the piezoelectric proportional control valve, The inlet port (A) on one side of the valve body (7) and the outlet port (B) on the other side, the poppet (20) for opening and closing the inlet and outlet ports (A, B) penetrating into the valve body (7) It is seated on the poppet seat 23 protruding into the valve body 7, and the balance spring 22 is located at the load sensing part 25 at the lower portion of the poppet 20 to the balance spring adjustment cap 26. It is fixed and connected to the control space portion (1a) and the control nozzle (2) having a piezoelectric actuator (1) is coupled to the upper portion of the poppet (20) is provided with a piezoelectric actuator (1), the piezoelectric actuator (1) Piezoelectric proportional control valve, characterized in that the controller 15 is provided at the top to control the amount of fluid in proportion to the voltage applied to the piezoelectric actuator (1). The method of claim 1, The proportional control is a piezoelectric proportional control valve characterized in that it is controlled by the adjustment of the force generated in the diaphragm portion 24 and the force generated in the load-sensing portion (25) according to the operation of the balance spring (22). The method of claim 1, One side of the inlet port A is formed with a control pilot 17 connected to the diaphragm part 24, and one side of the outlet port B is connected to the control space part 1a. And a load-sensitive pilot 19 connected to the load-sensing unit 25 are formed, respectively. The method of claim 1, The piezoelectric actuator 1 for controlling the pressure of the diaphragm portion 24 is in close contact with the control nozzle 2 and at the same time induces a proportional performance of the piezoelectric actuator 1, the spring for the piezoelectric actuator 21 Piezoelectric proportional control valve characterized in that it is mounted.

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