JP3154869B2 - Pressure / flow rate adjustment device for sample water sampling device - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a sample water sampling apparatus suitably applicable to a boiler plant and the like, and more particularly to an adjustment apparatus for adjusting the pressure and flow rate of sample water supplied to an analyzer.

[0002]

2. Description of the Related Art Generally, a boiler plant such as a thermal power plant or a nuclear power plant is provided with a sample water sampling device for adjusting water quality. That is, in FIG. 4, the sample water such as the supply and return water extracted from the process system main pipe 10 is led to the pipeline 16 of the sample water sampling device 14,
First, in the upstream high-pressure area 16a, the high temperature and high pressure are respectively reduced (usually about 25 ° C.) via the cooler 18 and the decompressor 20, and the pressure is reduced (usually 2 to 3
kg / cm ² ). Next, in the downstream low-pressure region 16b, the pressure and flow rate of the sample water whose temperature has been reduced and reduced are set to a constant head vessel (or back pressure valve) 22, a flow control valve (usually a needle valve) 24, and a thermometer 26. , Flow meter 28 and / or pressure gauge 30
It is adjusted via a pressure / flow rate adjusting device 32 composed of
Then, the sample water at a constant flow rate is configured to be supplied to the analyzer 34 on the most downstream side. In addition,
The head vessel 22 is disposed at a predetermined height via a branch pipeline 36, and is configured so that required sample water overflows into a water distribution pipe 38.

[0003]

However, the above-mentioned conventional pressure / flow rate adjusting device has the following drawbacks.

[0004] That is, the conventional pressure / flow rate adjusting device comprises an adjusting means comprising a head vessel and a needle valve disposed in the downstream low pressure region as described above, and a thermometer, a flow meter and a pressure gauge. It is clear that the sampling device was large because it was composed of measuring means and this device configuration required a considerable installation space.

Next, in the above device configuration, since the measuring means is usually formed only of an indicator, it needs to be visually checked and confirmed on site, and the needle valve of the adjusting means is made of scale or the like. Checking and adjusting about once a day are required to prevent a decrease in analysis accuracy due to a decrease in the flow rate of the sample water. For this reason, monitoring and maintenance management of the sampling device have been complicated.

Further, the head vessel of the adjusting means overflows the sample water, so that waste and / or other obstacles have occurred. For this reason, in order to solve the above-mentioned difficulties, there has been a wide demand for the conventional pressure / flow rate adjusting device to provide a technology capable of, for example, reducing the maintenance frequency and performing controllable collective monitoring.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a pressure and flow rate adjusting device for a sample water sampling device which can be controlled and collectively monitored, and which can be easily and simply configured to be small. .

[0008]

In order to achieve the above object, a pressure / flow rate adjusting device of a sample water sampling apparatus according to the present invention is provided for reducing the temperature and pressure of a high-temperature and high-pressure sample water and supplying the same to an analyzer. In the sample water sampling device, the adjusting device for adjusting the pressure and flow rate of the supply sample water is formed so as to adjust the flow rate of the sample water by detecting the temperature and pressure of the temperature-reduced and decompressed sample water. It is characterized by comprising a control valve with a sensor.

In this case, the control valve with sensor includes:
A monitoring and / or control device can be provided to display and / or control the temperature, pressure and flow of the sample water in the downstream low pressure area.

In the control valve with sensor, the valve portion is formed as a motor-operated valve portion including a valve seat and a valve disk, and the sample water pressure detection sensors are disposed on the upstream and downstream sides of the motor-operated valve portion, respectively. Thus, the electric valve unit can be configured to be able to control based on the output pressure difference between the two pressure sensors. In this case, the motor-operated valve unit may be configured so as to be capable of performing correction control via a sample water temperature detection sensor, and the valve seat of the motor-operated valve unit may be configured to have an orifice shape.

[0011]

In the present invention, the pressure / flow rate adjusting device for the supplied sample water is constituted by a control valve with a sensor formed so as to adjust the flow rate of the sample water by detecting the temperature and pressure of the sample water. The control valve with a sensor can be provided with a monitoring device and / or a control device for displaying and / or controlling the temperature, pressure and flow rate of the sample water. In other words, the pressure / flow rate adjusting device of the present invention is constituted by a control valve with a multifunctional sensor which can be provided as a single unit and further provided with a monitoring / control device. Therefore, according to the pressure / flow rate adjusting device of the present invention, maintenance is easy, the configuration is simple and compact, and monitoring can be performed collectively in a controllable manner.

[0012]

Next, the pressure and pressure of the sample water sampling apparatus according to the present invention will be described.
An embodiment of the flow control device will be described in detail below with reference to the accompanying drawings. For convenience of description, the same components as those of the conventional structure shown in FIG. 4 are denoted by the same reference numerals, and detailed description is omitted.

In FIG. 1, the configuration of the pressure / flow rate adjusting device of the present invention is basically the same as that of the conventional device shown in FIG. Therefore, although overlapping, to briefly explain again, the sample water extracted from the process system mother pipe 10 is:
It is led to the pipeline 16 of the sample water sampling device 14, and first in its upstream high pressure region 16a,
The high pressure is reduced in temperature and reduced in pressure via the cooler 18 and the pressure reducer 20, respectively. Next, the pressure and flow rate of the sample water whose temperature has been reduced and decompressed is adjusted through the pressure and flow rate adjusting device 40 in the downstream low pressure region 16b. The sample water adjusted to the constant flow rate is configured to be supplied to the analyzer 34 on the most downstream side.

In the present invention, however, the above-described pressure / flow rate adjusting device 40 adjusts the flow rate of the sample water by detecting the temperature and pressure of the sample water (supply sample water) whose temperature has been reduced and reduced. The control valve 40 is a single / multi-function control valve with a sensor.

That is, as is apparent from FIG. 2, the control valve with sensor 40 of the present invention comprises a valve body 44 having a flow path 42 of the sample water to be supplied therein, a gear box 46 and a motor coupled thereto. 48. A valve seat 50 and a valve disc 52 disposed substantially in the central curved portion of the flow path 42;
The electric valve portion 54 is formed by the motor 52 and the motor 52.
An upstream pressure sensor 56 is provided upstream of the electric valve portion 54.
Are disposed, and an outlet pressure sensor 58 and a temperature sensor 60 are disposed downstream. The monitoring / control panel 7 is connected to the control valve 40 with the sensor.
0 indicates power, input, and output conductors 62a, 62b, and 62c.
Connected via Further, the central monitoring and control device 66
Can be connected via the connection conductor 64.

Here, the pressure sensors 56 and 58 and the temperature sensor 60 can each be constituted by a normal piezoelectric element, a thermistor, or the like. In addition, the electric valve unit 5
4, the sheet 50 has a differential pressure and viscosity before and after the sample water,
It is formed in an orifice shape that can be easily replaced so as to easily respond to various conditions such as temperature.

Further, the monitoring / control panel 7 having the above configuration
0 will be described with reference to FIG.
The control panel 70 calculates the difference T (P1−P2) between the temperature T of the sample water, the inlet pressure P1 and the outlet pressure P2 detected from the sensors 60, 56 and 58 and the pressure difference (P1−P2). And the temperature T based on the differential pressure (P1-P2).
Calculator 76 for calculating sample water flow rate F with corrected conditions
So that the flow rate F becomes a predetermined constant value.
Phage chip (or PI
D control unit) 78 and a control unit 82 including a valve control motor 80. The differential pressure (P1-P2)
Is determined based on data from the memory 74 in which the Cv value curve of the motor-operated valve section 54 is input in advance.

The display unit 8 of the monitoring / control panel 70
4, the temperature T, the inlet pressure P1, the outlet pressure P2
And the flow rate F are displayed, and the motor 48, that is, the motor-operated valve section 54 is automatically controlled via the control section 82. In the monitoring / control panel 70, for example, the setting and display of the upper and lower limit alarms of the temperature T and the pressures P1 and P2, or the control of changing the set values of the pressures P1, P2 and the flow rate F can be implemented. is there.

As described above, the pressure / flow rate adjusting device of the present invention is integrally formed of a control valve with a sensor which can be provided with a monitoring / control device. Therefore, as compared with a conventional apparatus of this type which requires a large number of measuring and adjusting means, the maintenance is easy, the configuration is simple and small, and the monitoring can be controlled and a remote control such as a central monitoring room is required. The advantage that it can be performed collectively on the ground is obtained.

The preferred embodiment of the present invention has been described above. However, the present invention is not limited to the above-described embodiment, and many design changes can be made without departing from the spirit of the present invention. Further, in the above-described embodiments, the description has been given of the application of the boiler plant. However, the present invention is not limited to these applications, and may be similarly applied to a sample water sampling device for, for example, water supply / sewage or IC related use. Can be.

[0021]

As described above, the pressure / flow rate adjusting device of the sample water sampling apparatus according to the present invention is a sample water sampling apparatus for reducing the temperature and pressure of a high-temperature and high-pressure sample water and supplying the same to an analyzer. An adjusting device for adjusting the pressure and flow rate of the supplied sample water is constituted by a control valve with a sensor formed so as to detect the temperature and pressure of the reduced and depressurized sample water and adjust the flow rate of the sample water. As a result, as compared with a conventional device of this type which requires a large number of measuring and adjusting means, the maintenance is easy, and the configuration can be simplified and downsized. In addition, since the control valve with sensor of the present invention is provided with a monitoring / control device, it is possible to obtain advantages such that monitoring can be controlled and the monitoring can be performed collectively in a remote place such as a central monitoring room. .

[Brief description of the drawings]

FIG. 1 is an overall system diagram showing an embodiment of a pressure / flow rate adjusting device of a sample water sampling device according to the present invention.

FIG. 2 is a partially cutaway sectional view showing one embodiment of the sensor-equipped control valve shown in FIG.

FIG. 3 is a circuit diagram showing one embodiment of a monitoring / control panel shown in FIG. 2;

FIG. 4 is an overall system diagram showing a pressure / flow rate adjusting device of a conventional sample water sampling device.

[Explanation of symbols]

 10 Process System Main Pipe 14 Sample Water Sampling Device 16 Pipeline 16a High Pressure Region 16b Low Pressure Region 18 Cooler 20 Decompressor 34 Analyzer 40 Control Valve with Sensor (Pressure / Flow Control Device) 42 Flow Path 44 Valve Body 46 Gearbox 48 Motor 50 Valve seat 52 Valve disc 54 Motorized valve section 56 Inlet pressure sensor 58 Outlet pressure sensor 60 Temperature sensor 62a to 62c Conducting wire 64 Connection conducting wire 66 Central monitoring and control device 70 Monitoring and control panel 72 Subtractor 74 Memory 76 Computing unit 78 Phage chip (or PID controller) 80 Valve control motor 82 Control unit 84 Display unit

────────────────────────────────────────────────── ─── Continued on the front page (58) Fields surveyed (Int. Cl. ⁷ , DB name) G01N 1/00 G01N 33/18 G05D 7/06 G05D 16/20 JICST file (JOIS)

Claims (5)

(57) [Claims] 1. A sample water sampling device for reducing the temperature and pressure of a high-temperature and high-pressure sample water and supplying the same to an analyzer, wherein the adjusting device for adjusting the pressure and flow rate of the supplied sample water includes
A pressure / flow rate adjusting device for a sample water sampling device, comprising a control valve with a sensor formed so as to adjust the flow rate of the sample water by detecting the temperature and pressure of the reduced sample water. 2. The sample water sampling apparatus according to claim 1, wherein the control valve with the sensor includes a monitoring device and / or a control device for displaying and / or controlling the temperature, pressure and flow rate of the sample water in the downstream low pressure region. Equipment pressure / flow rate adjustment device. 3. A control valve with a sensor, wherein the valve portion is formed in a motor-operated valve portion including a valve seat and a valve disk, and the sample water pressure detection sensor is disposed on an upstream side and a downstream side of the motor-operated valve portion, respectively. 2. The pressure / flow rate adjusting device for a sample water sampling device according to claim 1, wherein the motor-operated valve portion is configured to be able to control based on the output pressure difference between the two pressure sensors. 4. The pressure / flow rate adjusting device for a sample water sampling device according to claim 3, wherein the motor-operated valve portion is further configured to be capable of performing correction control via a sample water temperature detection sensor. 5. The pressure / flow rate adjusting device for a sample water sampling device according to claim 3, wherein the motor-operated valve portion has a valve seat formed in an orifice shape.