NL8701652A - AUTOMATICALLY CONTROLLED PRESSURE CONTROL VALVE. - Google Patents

Description

• Jr- ». f VO 9218

Automatically controlled pressure control valve

The invention relates to a self-regulating pressure setting valve, which is capable of controlling the secondary pressure, namely the pressure of an associated controlled system, at a predetermined set level via the self-adjusting of its pressure setting state on the basis of a control signal, which corresponds to the prevailing pressure of the regulated system, which is detected by pressure sensors.

Japanese Patent Application No. 59-207779 has proposed an automatic pressure reduction diaphragm valve. This automatic pressure reduction diaphragm valve includes a pressure reduction diaphragm valve unit, a pressure adjusting unit provided with a pressure adjusting spring, an operating device for operating the pressure adjusting unit and a control unit which provides a control signal around the operating device when the pressure deviation of a detected secondary pressure, namely the set pressure, relative to a target pressure, exceeds a predetermined reference deviation such that the pressure deviation is reduced to zero.

This automatic pressure reduction diaphragm valve is capable of stable pressure reduction operation to stabilize the secondary pressure through mechanical action when the pressure deviation of the secondary pressure is below the reference pressure deviation. Since the automatic pressure reduction diaphragm valve controls the secondary pressure based on the comparison result between the detected pressure deviation and the reference pressure deviation, it takes a long time to stabilize the secondary pressure at the predetermined set pressure.

Accordingly, it is an object of the invention to provide a self-regulating pressure adjustment valve which is capable of quickly adjusting the secondary pressure to a predetermined set value.

According to the invention, use is made of the functional relationship between the position of pressure regulators and the secondary pressure 30 of a self-regulating pressure reduction valve provided with the pressure regulators and actuators to drive the pressure regulators.

To achieve the object of the invention, the invention provides a self-regulating pressure adjustment valve comprising a pressure adjustment unit, a detection unit for detecting the secondary pressure, a pressure control unit for detecting the secondary pressure. of the pressure control valve unit, a drive unit to operate the pressure control unit, a control unit to control the drive unit, and a pressure setting unit to set a set pressure.

The control unit controls the drive unit based on the functional relationship between the position of the pressure control unit and the secondary pressure, corresponding to the. set pressure in order to set the secondary pressure to a desired value, namely the set pressure value IQ.

In the embodiment according to the invention, the control unit comprises a computing device, which is provided with computing means, correction means and memory means.

According to the invention, when an arbitrarily selected set pressure is given by means of the pressure adjusting unit, the operating elements of the control unit calculate a suitable position of the pressure adjusting part of the pressure control unit on the basis of the functional relationship between the secondary pressure and the position of the pressure adjusting part , after which the control unit supplies a control signal to the drive unit to adjust the position of the pressure setting member to a calculated suitable position such that the secondary pressure is adjusted to the setting pressure.

After the secondary pressure is adjusted to the set pressure in this way, the self-adjusting valve unit starts with the mechanical 25 '; pressure setting operation in the usual manner. Further, if fine adjustment of the secondary pressure is required, it is desirable to provide secondary pressure sensing means to continuously or periodically sense the secondary pressure and control the drive unit by a correction signal calculated by the actuator of the control unit 30 based on the difference between the set pressure and the observed secondary pressure in order to continuously or periodically adjust the secondary pressure.

In this way, the self-regulating pressure adjustment valve can respond quickly to variations of the secondary pressure and instantly adjust the secondary pressure, namely the controlled pressure, to a set pressure, namely a target pressure.

870 1 S3 2 -3-

The invention will be explained in more detail below with reference to the drawing. In the drawing: Fig. 1 shows a partial cross-section of a self-regulating pressure adjustment valve, more particularly showing the pressure control unit thereof; Fig. 2 is a graph showing the relationship between the pressure setting part of a pressure setting unit and the controlled pressure; FIG. 3 is a block diagram of a first embodiment of a self-regulating pressure adjustment valve according to the invention; Fig. 4 is a block diagram of a second embodiment of a self-regulating pressure adjustment valve according to the invention; and fig *. 5 is a block diagram of a third embodiment of a self-regulating pressure adjustment valve according to the invention.

Figures 1 and 2 show a first embodiment of the application of the invention to a pressure reduction valve 1. With reference to Figure 1, the pressure reduction valve '1 has a pressure setting spring 2, one end of which rests in a spring seat 3 and the other end of which is fitted in a spring seat 6 rests. The spring seats 3 and 6 are respectively pressed against a diaphragm 4 and against the lower end, as seen in Fig. 1, of a pressure adjusting screw rod 8 via a ball 7. The secondary pressure of the pressure reduction valve 1 prevails in a pressure chamber 5, which the membrane 4 is closed. The position of the membrane 4 depends on the pressure equilibrium between the pressure exerted thereon by the pressure adjusting spring 2 and the secondary pressure prevailing in the pressure chamber 5. Since the secondary pressure control function of the membrane is known, a description thereof will be omitted.

An external screw thread 9 is formed in the lower part of the pressure adjusting screw rod 8. The threaded lower end of the pressure regulating rod 8 is screwed into a stationary part, which in the central part thereof is provided with an internal thread 10. In the upper part, as seen in fig. 1, of the pressure regulating screw rod 8 is an axial bore formed. A retainer 11 for balls 12 is inserted into the axial bore of the pressure control screw rod 8. A spline shaft 13 is inserted into the axial bore of the pressure control screw rod 8 to cooperate with the balls 12. The key shaft 13 is connected to the output shaft of a motor 15 via a reduction gear mechanism 14.

Since the pressure adjusting screw rod engages the internal screw thread 10 of the stationary part, the pressure adjusting screw rod 8 is rotated through the key shaft 13 to be slid down when the output shaft of the motor 15 rotates in one direction, causing the pressure adjusting spring 2 to the spring seat 6 is compressed by the pressure adjusting screw rod 8 to increase the adjusting pressure. On the other hand, when the output shaft of the motor 15 rotates in the opposite direction, the pressure adjusting screw rod 8 is rotated in the opposite direction, causing it to shift upwards, as a result of which the pressure of the pressure adjusting spring 2 is reduced and the setting pressure is reduced.

The distance by which the lower end of the pressure adjusting screw rod 8 is shifted from a predetermined reference position (a position in which the lower end of the pressure adjusting screw rod 8 contacts the spring seat 6 via the ball 6 without the pressure adjusting spring 2 being compressed) which position will be referred to as "screw rod position", is proportional to the amount of compression of the pressure setting spring 2 and therefore to the setting pressure, as shown in Fig. 2. According to the invention, such a relationship is effectively used. between the distance by which the lower end of the pressure adjusting screw rod 8 slides and the setting pressure.

Referring to Fig. 3, which illustrates the first embodiment of the invention, the self-regulating pressure adjustment valve includes a pressure reduction valve 1, a pressure control unit 50 with the pressure adjustment screw rod 8, a drive unit 52 provided with the motor 15, a pressure sensing unit 54 , a signal converting unit 55, a control unit 56 with a calculator, in which screw rod position information is stored, representing the functional relationship between the screw rod position and the controlled pressure, and a pressure setting unit 58. In the first embodiment, the motor 15 is a stepper motor.

8701652 -5-

The pressure sensing device of the pressure sensing unit 54 detects the secondary pressure of the pressure reducing valve 1 and applies a pressure signal representative of the secondary pressure to the signal converting unit 55. Thereafter, the signal converting unit 55 converts the pressure signal into a corresponding digital pressure signal then signal to the calculator of the control unit 56.

Upon receipt of a set pressure signal, representative of a set pressure, from the pressure setting unit 58, the calculator calculates a screw rod position, which corresponds to the set pressure for the 10. pressure setting screw rod 8 based on the screw rod position information previously stored therein, and then outputs a pulse signal , corresponding to the calculated screw rod position, to the drive unit 52 to drive the pressure control unit 50 such that the pressure adjusting screw rod 8 is shifted to the calculated screw rod position. therefore, the secondary pressure of the pressure reduction valve 1 is instantaneously adjusted to the set pressure. The angle of rotation of the output shaft of the starter motor 15 is proportional to the number of pulses of the pulse signal, and therefore the position of the pressure adjusting screw rod 8 corresponds to the number of pulses of the pulse signal.

The pressure detecting unit 54 senses the secondary pressure continuously or periodically and the signal converting unit 55 applies digital signals to the control unit 56 in a corresponding manner. The calculator of the control unit 56 compares the perceived secondary pressure with the set pressure. When the deviation of the detected secondary pressure from the set pressure is within a predetermined deviation range, the control unit provides no signal for influencing the drive unit 52. When the deviation of the detected secondary pressure from the set pressure is greater than the limit value of the predetermined deviation area, the calculator 30 calculates a correction distance, over which the pressure adjustment screw rod 8 must be shifted to correct the deviation, based on the difference between the observed secondary pressure and the set pressure and the screw rod position stored therein information, after which the calculating device supplies a control signal representative of the calculated correction distance for the secondary pressure correction, in order to influence the drive unit to shift the pressure adjusting screw rod 8 for the fine adjustment of the secondary pressure.

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For example, when the set pressure is 5 kg / cm2, the reference deviation range is +0.1 kg / cm2, and the observed secondary pressure is 4.5 kg / cm2, the calculator calculates a correction distance corresponding to the pressure deviation of 0.5 kg / cm cm2 based on the screw 5 rod position information to shift the pressure adjusting screw rod 8 accordingly.

For more advanced pressure control, digital information representative of the functional relationship between the set pressure and the screw rod position, for example a predetermined relationship between the set pressure and the screw rod position, is displayed by set pressures at intervals of 1 kg / cm2 and the corresponding screw rod positions, stored in the table of the memory means of the computing device, and the control operation and the correction operation based on the digital information are performed according to the predetermined interrelation. When a correction takes place, the digital information representing the previous screw rod position is replaced with the corrected information representing the new screw rod position to update the table of memory members.

By way of example, it is assumed that the screw rod positions S4 and S5 stored in the memory means of the calculator correspond to set pressures, more particularly secondary set pressures of 4 and 5 kg / cm 2, respectively. When the valve is set to the set pressure of 5 kg / cm2 by means of the pressure adjusters, the motor drives the pressure adjusting screw rod to the corresponding screw rod position S5. When a reference deviation range is +0.1 kg / cm2, the motor will remain stationary as long as the deviation of the actual secondary pressure from the set pressure remains within the reference deviation range.

It is assumed that the set pressure is 5 kg / cm2, the reference deviation range is + 0.1 kg / cm2, and the prevailing secondary pressure is 4.5 kg / cm2. In that case, the calculator calculates a screw rod position correction displacement AS, which corresponds to the deviation: 5.0 - 4.5 = 0.5 kg / cm2 using the equation 35 AS = (S5 - S4) X 0.5 / (5 - 4).

8701652 '' -7-

Thereafter, the motor drives the pressure adjusting screw rod with the calculated screw rod position correction displacement AS to increase the secondary pressure from 4.5 kg / cm2 to 5.0 kg / cm2- Then the initial screw rod position S5 stored in the 5 memory members is replaced by S5 + AS.

When the same set pressure is supplied to the control unit to control the regulated pressure at the same target pressure after the pressure control screw rod 8 is shifted from the previous screw position to change the set pressure, the calculator calculates a correct screw position to instantaneously apply the secondary pressure to the control the intended pressure.

When the pressure control system of the automatically controlled pressure control valve is constructed in this manner, the pressure control system provides ideal control information even when the operating state of the pressure reduction valve is varied, so that the automatically controlled pressure control valve can operate at a high response speed.

In essence, the second embodiment shown in Figures 1 and 4 corresponds in construction and function to the first embodiment. In the second embodiment, a rotatable potentiometer for sensing the position of the pressure adjusting screw rod 8 and a reversible motor instead of the stepper motor for driving the pressure adjusting screw rod 8 is used.

With reference to Fig. 4, the second embodiment includes a pressure reduction valve 1, a pressure control unit 50, a drive unit 52, a pressure detector 54, a signal converter 55, a control unit 56, a pressure adjustment unit 58, a reduction gear mechanism 14, and a rotary potentiometer 20.

With reference to Fig. 1, the rotary potentiometer 20 is operatively coupled to one of the gears of the reduction-gear mechanism 14 not shown. The output voltage of the potentiometer 20 is proportional to the distance by which the pressure adjusting screw rod 8 is shifted from the reference position (a position in which the pressure adjusting screw rod engages the pressure adjusting spring 2 without compressing the latter), namely the screw rod position.

Therefore, the output voltage of the rotary potentiometer 20 is representative of the screw rod position and therefore the secondary 3701552 -8 pressure, namely the controlled pressure. In the second embodiment, threaded rod position information, which is representative of the functional relationship between the threaded rod position, represented by the output voltage of the rotary potentiometer 20, and the secondary pressure, is stored in the calculator.

The rotatable potentiometer 20 can be replaced by a linear potentiometer or a differential transformer. When a linear potentiometer is used, the movable contact of the linear potentiometer is designed so that it can move linearly together with the pressure adjusting screw rod 8. When a differential transformer is used, the core of the differential transformer is arranged so that it can move linearly together with the pressure adjusting screw rod 8.

The control unit 56 continuously supplies a signal to the drive unit 52 until the output signal of the rotary potentiometer 20, namely the. screw rod position signal, coinciding with a signal which is supplied to the control unit 56 by means of the pressure setting unit 58. Since the rest of the functions are the same as those in the first embodiment, a description thereof will be omitted to avoid repetition.

The third embodiment shown in Fig. 5 comprises a pressure reduction valve 1, a reduction gear mechanism 14, a rotatable potentiometer 20, a pressure control unit 50, a drive unit 52, a control unit 70 and a pressure adjustment unit 72 provided with a potentiometer.

The control unit 72 does not include a computer. The third embodiment can most easily control the secondary pressure based on the relationship between the screw rod position and the secondary pressure, namely the controlled pressure. The rotatable potentiometer 30 meters, operatively coupled to the reduction gear mechanism 14, supplies a voltage signal representing a screw rod position corresponding to the secondary pressure to the control unit 70, while the potentiometer of the pressure adjustment unit 72 supplies a voltage signal. is representative of a set pressure, to the control unit 72. The control unit 72 compares the voltage signal, representing the screw rod position, and the voltage signal, 8701552 -9-, to each other, and then applies a control signal to the drive unit 52 to shift the pressure adjustment screw rod until it passes through the rotary potentiometer. 20 voltage signal supplied coincides with the voltage signal representing the set pressure.

The rotatable potentiometer 20 can be replaced by a linear potentiometer or a differential transformer, as mentioned in the description of the second embodiment.

870 1 o5 2

Claims (6)

Self-regulating pressure adjusting valve, characterized by a pressure regulating valve (1), pressure adjusting members (58.72) for setting a setting pressure, pressure regulating members (50) for controlling the controlled pressure of the pressure regulating valve (1), actuators (52) to drive the pressure control means (50) to 5, and control means (56) to control the operation of the drive means (52) based on an adjustment pressure set by the pressure adjustment means (58), and the predetermined functional relationship between the position of regulate the pressure adjusting member (8) of the pressure control members (50) and the controlled pressure such that the pressure adjusting element (8) of the 10 pressure control members (50) is shifted to a position where the controlled pressure is adjusted to the setting pressure. Self-regulating pressure adjustment valve according to claim 1, characterized in that the control members (50) are provided with a calculating device (56), in which control information is stored, which has the predetermined functional relationship between the position of the pressure adjustment element (8) of the pressure regulators (50) and the controlled pressure, which calculator (56) calculates a position in which the pressure adjustment element (8) is to be positioned based on the control information and a set pressure signal supplied by the pressure adjusters (58), 20 the position of the pressure adjusting element (8) being sensed by position detecting means, such as a potentiometer (20), and the control means (50) controlling the operation of the driving means (52) such that the pressure control means (50) are driven until the detection signal of the position detecting means (20) coincides with a signal representing the position calculated by the calculator (56) of the r gel means (50) based on the control information and the signal representing the set pressure. Self-regulating pressure adjustment valve according to claim 1, characterized in that the control members (50) are provided with a calculating device 30 (56), which stores control information which shows the predetermined functional relationship between the position of the pressure adjustment element (8) of the pressure control means (50) and the controlled pressure, the drive means (52) being provided with a stepper motor (15) and the calculating 87 0 1 S5 2 9 / ¾ -11 device (56) based on a set pressure signal , which is supplied thereto from the pressure adjusting members (58), calculates a pulse signal whose number of pulses corresponds to a position in which the pressure adjusting element (8) is to be positioned, and then supplies the pulse 5 signal to the stop motor (15) in order to control the controlled to adjust the set pressure. Self-regulating pressure adjusting valve according to claim 2 or 3, characterized by controlled pressure detecting means (54) for detecting the controlled pressure, the detection signal supplied by the controlled pressure detecting means 10 (54) and the setting pressure signal being provided by the pressure adjustment means (58), continuously or periodically compared by the control means (50) to determine the deviation of the controlled pressure from the set pressure, and if a significant deviation of the controlled pressure from the set pressure is present 15, the calculator (56) calculates a correction distance over which the pressure adjusting element (8) of the pressure control members (50) relative to the current position based on the deviation and the control information stored in the calculator (56), must be shifted to correct the regulated pressure so that the regulated pressure coincides with the set pressure. Self-regulating pressure adjustment valve according to claim 4, characterized in that the position of the pressure adjustment element (8) of the pressure control members (50) determined by the control unit (56) on the basis of the difference between the controlled pressure signal that the detected controlled pressure 25, and the set pressure signal representing the set pressure is stored in the calculator (56) as a new correct position of the pressure setting element (8) of the pressure control members (50). Self-regulating pressure adjustment valve according to claim 1, characterized in that the control members (70) control the actuators (52) so that they operate until the detection signal corresponding to the position of the pressure adjustment element (8) of the pressure control members ( 50), detected by the potentiometer (20) or the like of the position detecting means, coincides with the set pressure signal representing a set pressure supplied by a potentiometer or the like of the pressure setting means (72). 1701332