KR20110096946A - Sensing line back filling device and method - Google Patents

Abstract

The present invention relates to an apparatus and method for backfilling a pressure pipe, in contrast to a conventional method of directly filling condensate by a manual hand pump method, indirect water filling can be made in a pressure pipe by pushing the condensate using high pressure compressed air force. As a result, it is possible to shorten the filling time and have an effect of fundamentally preventing bubble inflow into the pressure guiding tube.
The present invention, the pressure pipe 200 forming a pair of main pressure pipe 200 is connected to the two lines in a pair; A pressure gauge (120) configured for measuring a pressure difference between the paired pressure pipes (100); A pressure guiding pipe isolation valve 130 configured at a connection side of the pressure pipe 200 of the pressure guiding pipe 100; Filling tank 10 is configured to be connected to one side for the filling of the condensed water in the pressure pipe (100); A condensate inlet 20 configured to inject condensate into an upper portion of the filling tank 10; An air supply unit 30 connected to supply the compressed air to the filling tank 10; A pressure regulator 40 for adjusting the supply pressure of the compressed air supplied from the air supply unit 30 to the filling tank 10; A compressed air isolation valve (50) installed at a connection portion between the air supply unit (30) and the filling tank (10); Characterized in that the configuration comprising a; condensed water supply valve 60 is installed on the connection between the filling tank 10 and the pressure pipe 100.

Description

Pressure line reverse filling device and method {SENSING LINE BACK FILLING DEVICE AND METHOD}

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a back pressure refilling device and method, and more particularly, to a reverse water storage device for artificially filling condensate in a pressure pipe installed for measuring a physical quantity of a fluid flowing along a main pressure pipe.

In general, pressure and flow measurement of a process control system measures the physical quantity by contacting a medium of the system with a measuring device through a pressure pipe consisting of a pipe or a tube.

Normally, the concept of pressure is the "force acting per unit area" defined in Pascal's law. The pressure sensor of an actual instrument adds the pressure of the water head corresponding to the reference height of the pressure gauge and the pressure in the process system. Sensing by the amount of pressure

In order for the pressure of the process system acting on the pressure guiding pipe to be accurately transmitted, the air bubbles that obstruct the inflow of foreign substances or the pressure transmission must be completely removed.

Therefore, when the pressure pipe connected to the measuring instrument is removed, the operation of removing the air bubbles of the pressure pipe after the measuring machine is performed in parallel. This refers to the operation of filling the pressure pipe with condensate containing no bubbles and is performed for the entire length of the pressure pipe drawn out from the main pipe.

Another reason for filling the condensate is to prevent damage to the measurement sensor due to the high temperature of the steam when the fluid in the process system is steam.

On the other hand, the short distance pressure pipe can be reversely filled by simple valve operation, but the length of the pressure pipe is very long so that the large amount of condensed water is artificially reversed to the pressure pipe to prevent the measurement error caused by bubbles. .

1 shows a schematic system diagram for filling a conventional pressure pipe, a hand pump (1) on one side of the pressure pipe 100 to remove air bubbles introduced into the pressure pipe 100 is configured as shown in the pressure transmitter 120 110 is connected, by filling the appropriate amount of water in the body of the hand pump 110 to manually operate the pump to fill the condensed water in the pressure pipe (100).

Reference numeral 200 denotes a main pressure pipe, 130 denotes a pressure vessel isolation valve, and 140 denotes a measurement operation valve.

On the other hand, when the length of the pressure pipe 100 is short, it can be supplemented by one pumping, but most of the pressure pipes 100 have a long length and cannot be supplemented by a single capacity, which causes instrument error due to bubbles. There was a problem.

The present invention has been proposed to improve the above problems in the conventional pressure pipe operation, the inflow of condensed water back to the pressure pipe connected to the main pressure pipe can be prevented from entering the air bubbles in the pressure pipe at the source. The purpose is to minimize the occurrence of instrument errors in measuring devices.

Filling device of the present invention for achieving the above object, the pressure pipe which is connected in two rows in pairs to the pressure pipe which is the main system; A pressure gauge configured to measure a pressure difference between the pair of pressure guiding pipes; A pressure guiding pipe isolation valve configured at a pressure pipe connecting side of the pressure guiding pipe; A filling tank configured to be connected to one side for filling the condensate with the pressure pipe; A condensate inlet configured to inject condensate into the filling tank; An air supply unit for supplying compressed air to the filling tank; A pressure regulator for controlling a supply pressure of the compressed air supplied from the air supply unit to the filling tank; A compressed air isolation valve installed at a connection portion between the air supply unit and the filling tank; And a condensed water supply valve installed at the connection portion between the filling tank and the pressure pipe.

The present invention, unlike the conventional method of directly filling the condensate in the manual hand pump method by using a high pressure compressed air force to push the condensate by indirect filling to the pressure pipe can be made to shorten the filling time In addition, it has the effect of fundamentally preventing the inflow of bubbles into the pressure vessel.

In particular, it is possible to maximize the work efficiency by being able to control the supply speed and amount of condensate using a pressure regulator.

1 is a supplemental system diagram of a conventional pressure pipe.
2 is a schematic structural diagram of a reverse appendage of the present invention.
Figure 3 is a state diagram of the pressure pipe connection of the present invention backfill.
Figure 4 is a flow chart of the reverse appendage process of the present invention.

Hereinafter, a specific embodiment of the present invention will be described in detail with reference to FIGS. 2 and 3.

First, looking at the structure of the reverse filling device according to an embodiment of the present invention through Figure 2, the condensate inlet 20 for condensate injection is provided on the top of the filling tank (10) where the condensate is stored at a certain level , One side is provided with a water gauge 70 for checking the level of the internal condensate.

In addition, an air supply unit 30 for supplying compressed air of high pressure is connected to the filling tank 10, and the connection portion of the filling tank 10 and the air supply unit 30 is configured to control the pressure of the compressed air. The pressure regulator 40 and the compressed air isolating valve 50 are comprised, respectively.

In addition, a condensate water supply valve 60 for opening and closing the condensate water supply passage is configured at the connection portion of the filling tank 10 and the pressure pipe 100.

The reverse filling device constituting such a configuration is connected to the pressure pipe 100 as shown in FIG.

The reverse pressure filling pipe process using the reverse filling device of the present invention will be described below.

First, a step of injecting condensate at a predetermined level through the condensate inlet 20 to the filling tank 10 is performed.

Then, the second step of installing the reverse water refilling device of the present invention by connecting the water supply tank (10) side condensing port supply valve 60 to the pressure pipe (100) connected in pairs to the pressure pipe (200) forming the main system Is carried out.

When the reverse filling device is connected as described above, a third step of opening the pressure guiding pipe isolation valve 130 installed at the connection of the pressure guiding pipe 100 and the pressure pipe 200 is performed.

In this case, among the measurement operation valves 140 installed in the pressure guiding pipe 100, the operation valves involved in opening and closing the flow path are selectively opened together so that all the flow paths in the pressure guiding pipe 100 are opened.

Thereafter, the compressed air isolating valve 50 is opened in a four-stage process of supplying compressed air from the air supply unit 30 to the filling tank 10 by replenishing condensed water to the pressure pipe 100 by air pressure. Will be performed.

That is, in the process of supplying compressed air of high pressure by supplying supply power to the air supply unit 30, the operator can control the pressure regulator 40 to properly control the traveling speed of the reverse filling.

Then, as the air pressure is applied, the condensed water of the filling tank 10 is supplied to the pressure pipe 100 by the force of the compressed air to be filled, and the operator checks the level of the condensed water through the water gauge 70. Done.

Then, when the condensate reaches the low water level, the back filling operation is completed by minimizing the pressure regulator 40 and closing the compressed air isolation valve 50 and the condensate water supply valve 60.

In addition, although specific embodiments of the present invention have been described and illustrated above, it is obvious that the structure of the reverse appendix of the present invention may be variously modified and implemented by those skilled in the art.

However, such modified embodiments should not be understood individually from the spirit or scope of the present invention, such modified embodiments will be included within the appended claims of the present invention.

10: filling tank 20: condensate inlet
30: air supply unit 40: pressure regulator
50: compressed air isolation valve 60: condensate water supply valve
70 level gauge 100: pressure gauge
120: pressure gauge 130: pressure vessel isolation valve
140: measurement operation valve 200: pressure piping

Claims (5)

A pressure pipe (100) connected in two rows in pairs to the pressure pipe (200) forming a main system;
A pressure gauge (120) configured for measuring a pressure difference between the paired pressure pipes (100);
A pressure guiding pipe isolation valve 130 configured at a connection side of the pressure pipe 200 of the pressure guiding pipe 100;
Filling tank 10 is configured to be connected to one side for the filling of the condensed water in the pressure pipe (100);
A condensate inlet 20 configured to inject condensate into an upper portion of the filling tank 10;
An air supply unit 30 connected to supply the compressed air to the filling tank 10;
A pressure regulator 40 for adjusting the supply pressure of the compressed air supplied from the air supply unit 30 to the filling tank 10;
A compressed air isolation valve (50) installed at a connection portion between the air supply unit (30) and the filling tank (10);
A condensed water supply valve 60 installed at a connection portion between the filling tank 10 and the pressure pipe 100;
The pressure pipe reverse filling device, characterized in that the configuration comprising a room. The method according to claim 1,
One side of the filling tank (10) is a pressure gauge back-filling device, characterized in that the water level meter 70 is configured for checking the storage level of the condensate. Injecting condensate into the filling tank through a condensate inlet;
Connecting the filling tank side condensing port supply valve to the pressure pipe connected in pairs to the pressure pipe forming the main system;
Three steps of opening the pressure guiding pipe isolation valve installed at the pressure guiding pipe and the pressure pipe connection part;
4 steps of supplying compressed air from the air supply unit to the supplemental tank while the compressed air isolating valve installed at the connection portion of the supplemental tank and the air supply unit is opened to the supplementary tank by the air pressure;
The pressure quenching station reverse water filling method comprising a. The method according to claim 3,
When the level of the water gauge provided in the filling tank becomes low level as the reverse pressure filling of the pressure pipe through the step 4, the compressed air supplied from the air supply unit is shut off, and the condensed water supply valve is closed. Way. The method according to claim 3,
In the fourth step, the pressure pipe back filling method characterized in that the supply amount and supply speed of the condensate is controlled by adjusting the pressure regulator installed in the flow path between the filling tank and the air supply unit.

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