KR20160096037A - Error detect and control method for gas filling and exhausting system of pressure tank - Google Patents

Abstract

The present invention relates to a method for controlling detection of abnormality of a pressure tank filling/exhaust system and, more particularly, to a method wherein, when a pressure tank used for a piping system, such as an expansion tank or a water hammer prevention tank, is filled with a gas to adjust the water level or when the same is discharged, any abnormality of a device that constitutes the filling/exhaust system, such as a level transmitter, a level switch, a flow rate switch, a gas supply device, or an exhaust valve, is detected, thereby controlling the water level of the pressure tank precisely and reliably.

Description

TECHNICAL FIELD [0001] The present invention relates to a method of controlling an abnormality of a pressure tank filling and exhaust system,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an abnormality detection and control method for a pressure tank filling and exhausting system, and more particularly, to a method of controlling a pressure tank filling and discharging system for filling and discharging a gas for adjusting the level of a pressure tank used in a piping system, The present invention relates to a method for precisely and reliably controlling the level of a pressure tank by detecting abnormality of a filling / exhaust system constituting device such as a level transmitter, a level switch, a flow switch, a gas supply device or an exhaust valve.

Circulating piping system or fluid piping system for cooling and heating prevents water shock caused by sudden change of flow rate and pressure in case of stoppage of pump or valve closure or prevents pipeline damage due to expansion of piping system in circulation piping system (Hereinafter, referred to as " expansion tank " in the latter case). The water level of such a pressure tank is a compressible fluid which absorbs the shock wave due to the nature of the compressible fluid of the gas volume on the water surface when the expansion or the water impact occurs in the piping system or prevents the low pressure of the pipe by flowing the liquid into the piping system. Therefore, the accurate and reliable maintenance of the appropriate level is to maintain the energy source for stabilization of the expansion or water impact pressure wave, and the water level fluctuation of the pressure tank means the reference pressure fluctuation of the entire piping system, If the pressure rises and falls below the saturation vapor pressure of the liquid, it can damage equipment and piping by shock wave when reassembling after separation of orders. To maintain the piping system stably It should be controlled so that it always remains in the appropriate water level range. This level control of the pressure tank is carried out by air in the pressure tank or by filling or evacuation of a gas such as nitrogen.

That is, as shown in Fig. 1 (a), in the water pipe shock prevention device of the open piping system in which the level maintenance of the proper range of the pressure tank is aimed, the level transmitter (LT) senses the level of the real time pressure tank When the water level rises, the control unit 400 opens the filling valve S1 to fill the gas inside the pressure tank 100 from the gas supply device 200 to adjust the water level to a proper water level. When the water level falls, (S2) is opened to evacuate the gas from the pressure tank (100) to raise the water level. 1 (b) and 1 (c), in the expansion tank system of the circulation piping system (a circulating piping system having a temporary piping system having an open end tank or a circulation piping system having a storage tank), the same method The level control in the tank is performed. 1 (b) and (c) of FIG. 1 are different from each other only in the connection position of the pressure tank.

As described above, in order to control the level of the pressure tank, a level transmitter must be provided in the pressure tank. However, in the conventional system, when only one level transmitter is provided per pressure tank, error of the level transmitter occurs or malfunction is performed The filling or exhausting operation is carried out more than necessary to change the operating pressure of the system, thereby causing not only the failure of the water hammer prevention device or the expansion control device but also the pressure change of the entire piping system, and consequently the water hammer prevention device and the expansion control device There has been a problem that prevention of the low pressure pressure surge (water shock) and the inability of the expansion control due to the temperature change exist.

To solve these problems, in a piping system requiring high reliability such as a local cooling / heating piping system, a liquid conveyance system, and a plant, a plurality of level transmitters are installed for accurate and reliable level control of the pressure tank, Or a method of responding to a failure or an error has been proposed.

However, the level transmitter has frequent occurrence of faults, and the price is high, so that the reliability of the measured level is low, and there is a disadvantage that equipment and maintenance cost are high when a plurality of level transmitters are used.

Meanwhile, Korean Patent Registration No. 10-1069126 of the present applicant further includes a plurality of level switches which are operated by the contact detection method in case of occurrence of a failure of the level transmitter, and further, the level measurement value of the level transmitter and the on / And a pressure tank for filling or discharging the gas into or from the pressure tank based on the determination result and the on / off signal of the level switch after determining whether the level of the level transmitter is raised or lowered by comparing the signals, A level control method is known. The above patent is advantageous in that it is possible to determine whether the level of the actual pressure tank is raised or lowered based on the ON / OFF signal of the level switch even when the level transmitter is abnormally generated. However, There is a disadvantage in that it is impossible to check the abnormality of the components of the filling and exhausting system such as the level switch, the flow switch, the gas supply device, or the exhaust valve.

Disclosure of the Invention The present invention was conceived to solve the problems of the conventional pressure tank filling and exhausting system as described above. It is an object of the present invention to provide an apparatus and a method for controlling the filling and exhausting system constituting apparatuses such as a level transmitter, a level switch, a flow switch, And to provide an effective system control method accordingly.

According to an aspect of the present invention, there is provided a piping system including: a pressure tank provided for water injection prevention control or expansion control; A level transmitter for measuring a level of the pressure tank; A plurality of level switches installed at different heights in the pressure tank; And a gas supply device for supplying a gas to the pressure tank, the method comprising the steps of: filling or discharging a gas in a pressure tank; Sensing a change in the level transmitter measurement value after the filling of the gas or the start of the exhaust; Sensing a change in the ON / OFF signal of the level switch after filling of the gas or start of exhaust; Determining whether the level transmitter and the level switch are abnormal based on a change in the level transmitter measured value for a predetermined period of time and a result of ON / OFF signal change of the level switch; And controlling the filling or discharging of the pressure tank in accordance with the result of the abnormality determination.

Here, it is preferable that the step of sensing the change of the level transmitter measured value and the step of sensing the ON / OFF signal change of the level switch are performed for a predetermined time after filling or exhausting the gas.

If there is a change in the measured value of the level transmitter and there is a change in the level switch ON / OFF signal, it is determined that both the level transmitter and the level switch are normal, and the filling or discharging of the pressure tank is controlled do.

If there is a change in the measured value of the level transmitter and there is no change in the level switch ON / OFF signal, it is determined that the level switch is abnormal and the filling or exhausting of the pressure tank is controlled in accordance with the measured value of the level transmitter.

If there is no change in the measured value of the level transmitter and there is a change in the level switch ON / OFF signal, it is determined that the level transmitter is abnormal, and the filling or exhausting of the pressure tank is controlled in accordance with the ON / OFF signal of the level switch .

If there is no change in the measured value of the level transmitter and there is no change in the level switch ON / OFF signal, it is determined that there is an abnormality in both the level transmitter and the level switch, and the system is stopped.

According to another aspect of the present invention, there is provided a piping system comprising: a pressure tank provided for water blocking prevention control or expansion control; A level transmitter for measuring a level of the pressure tank; A plurality of level switches installed at different heights in the pressure tank; A gas supply device for supplying gas to the pressure tank; An exhaust valve installed in the pressure tank for discharging the gas inside the pressure tank to the outside when the level of the pressure tank is lowered; And a flow rate switch for detecting a flow rate of a gas which is respectively provided on a discharge side and an exhaust valve discharge side of the gas supply device and which is filled or exhausted into and out of the pressure tank, Filling or evacuating the gas; Sensing a flow rate switch signal upon filling or evacuating the gas; Sensing a change in the level transmitter measurement value after the filling of the gas or the start of the exhaust; Sensing a change in the ON / OFF signal of the level switch after filling of the gas or start of exhaust; Determining whether the level transmitter and the level switch are abnormal based on a signal of the sensed flow switch, a change of the level transmitter measurement value, and a result of the ON / OFF signal change of the level switch; And controlling the filling or discharging of the pressure tank in accordance with the result of the abnormality determination.

Here, it is preferable that the step of sensing the change of the level transmitter measured value and the step of sensing the ON / OFF signal change of the level switch are performed for a predetermined time after filling or exhausting the gas.

Here, when the signal of the flow rate switch is ON at the time of filling or exhausting the gas, the measured value of the level transmitter changes, and the level switch ON / OFF signal changes, it is determined that both the level transmitter and the level switch are normal, Controls the filling or venting of the pressure tank according to the measured value of the level transmitter.

When the signal of the flow rate switch is ON at the time of filling or exhausting the gas and there is a change in the measured value of the level transmitter and there is no change in the level switch ON / OFF signal, it is judged that the level switch is abnormal. And controls the filling or exhausting of the pressure tank according to the value.

When the signal of the flow rate switch is ON at the time of filling or exhausting the gas and there is no change in the measured value of the level transmitter and there is a change in the level switch ON / OFF signal, it is determined that the level transmitter is abnormal. Controls filling or exhausting of pressure tank according to ON / OFF signal.

If the flow switch signal is ON when filling or evacuating the gas, the measured value of the level transmitter is not changed, and the level switch ON / OFF signal is not changed, there is an abnormality in both the level transmitter and the level switch And stops the system.

If the signal of the flow rate switch is OFF at the filling or exhausting of the gas and there is no change in the measured value of the level transmitter and the ON / OFF signal of the level switch, it is determined that there is an abnormality in the gas supply device or the exhaust valve , The system is stopped.

If the flow switch signal is OFF and there is a change in the measured value of the level transmitter and there is a change in the ON / OFF signal of the level switch, it is determined that the flow switch is abnormal and the flow switch abnormality alarm is generated externally , And controls the filling or exhausting of the pressure tank according to the normal level transmitter measurement value.

According to another preferred embodiment of the present invention, there is provided a piping system comprising: a pressure tank provided for a water hammer prevention control or an expansion control in a piping system; A level transmitter for measuring a level of the pressure tank; A plurality of level switches installed at different heights in the pressure tank; A gas supply device for supplying gas to the pressure tank; An exhaust valve installed in the pressure tank for discharging the gas inside the pressure tank to the outside when the level of the pressure tank is lowered; An abnormality detection and control method of a pressure tank filling and exhausting system including a pressure sensor for detecting a pressure inside a pressure tank, comprising the steps of: filling or discharging a gas in a pressure tank; Sensing a change in pressure sensor readings after the filling of the gas or the start of evacuation; Sensing a change in the level transmitter measurement value after the filling of the gas or the start of the exhaust; Sensing a change in the ON / OFF signal of the level switch after filling of the gas or start of exhaust; Determining whether the level transmitter and the level switch are abnormal based on the measurement value change of the pressure sensor, the change of the level transmitter measurement value, and the ON / OFF signal change of the level switch; And controlling the filling or discharging of the pressure tank in accordance with the result of the abnormality determination.

Here, the step of detecting the change of the pressure sensor measurement value, the step of sensing the change of the level transmitter measurement value, and the step of sensing the ON / OFF signal change of the level switch may be performed for a preset time do.

In this case, when there is a change in the measured value of the pressure sensor at the time of filling or exhausting the gas, and neither the measured value of the level transmitter nor the level switch ON / OFF signal shows a change, it is determined that both the level transmitter and the level switch are normal. Controls the filling or venting of the pressure tank according to the measured value of the transmitter.

When the measured value of the pressure sensor reaches a preset pressure upper limit value, an alarm is generated and the system is stopped.

When the measurement value of the pressure sensor does not change when the gas is filled or exhausted, and both the measured value of the level transmitter and the level switch ON / OFF signal are changed, it is judged that the level transmitter, the level switch and the pressure sensor are all normal And controls the filling or exhausting of the pressure tank according to the measured value of the level transmitter.

According to another aspect of the present invention, there is provided a piping system including: a pressure tank provided for water blocking prevention control or expansion control; A level transmitter for measuring a level of the pressure tank; A plurality of level switches installed at different heights in the pressure tank; A gas supply device for supplying gas to the pressure tank; An exhaust valve installed in the pressure tank for discharging the gas inside the pressure tank to the outside when the level of the pressure tank is lowered; An abnormality detection and control method of a pressure tank filling and exhausting system including a pressure sensor for detecting a pressure inside a pressure tank, comprising the steps of: filling or discharging a gas in a pressure tank; Sensing a change in pressure sensor readings after the filling of the gas or the start of evacuation; Sensing a change in the level transmitter measurement value after the filling of the gas or the start of the exhaust; Sensing a change in the ON / OFF signal of the level switch after filling of the gas or start of exhaust; Determining whether the level transmitter and the level switch are abnormal based on the measurement value change of the pressure sensor, the change of the level transmitter measurement value, and the ON / OFF signal change of the level switch; And controlling the filling or discharging of the pressure tank in accordance with the result of the abnormality determination.

Here, the step of detecting the change of the pressure sensor measurement value, the step of sensing the change of the level transmitter measurement value, and the step of sensing the ON / OFF signal change of the level switch may be performed for a preset time do.

If there is a change in the measured value of the pressure sensor when filling or evacuating the gas, and if the measured value of the level transmitter and the level switch ON / OFF signal are not changed, it is determined that both the level transmitter and the level switch are normal. And controls the filling or exhausting of the pressure tank according to the value. When the measured value of the pressure sensor reaches a preset pressure upper limit value, an alarm is generated and the system is stopped.

When the measurement value of the pressure sensor does not change when the gas is filled or exhausted, and both the measured value of the level transmitter and the level switch ON / OFF signal are changed, it is judged that the level transmitter, the level switch and the pressure sensor are all normal And controls the filling or exhausting of the pressure tank according to the measured value of the level transmitter.

When the measurement value of the level transmitter and the level switch ON / OFF signal are changed when the gas is filled or exhausted and the change of the measured value of the pressure sensor is within the preset reference value range, the level transmitter, It is determined that all of the sensors are normal, and the filling or discharging of the pressure tank is controlled according to the measured value of the level transmitter.

According to the present invention as described above, it is possible to detect abnormality of the filling / exhaust system constituting devices such as the level transmitter, the level switch, the flow switch, the gas supply device or the exhaust valve and to perform accurate and reliable pressure tank level control It is possible to prevent a safety accident such as a pressure control failure of a piping system caused by a failure of a level transmitter, a level switch, etc., and a pipeline explosion caused thereby.

1 is a configuration diagram of a piping system having a conventional pressure tank,
FIG. 2 is a configuration diagram of a pressure tank filling / exhausting system according to a preferred embodiment of the present invention,
3 is a diagram schematically showing a level sensing range and an output method of a level transmitter and a level switch,
4 is a flowchart of an abnormality detection and control method of a pressure tank filling and exhausting system according to the present invention,
5 is a graph showing an abnormality determination according to a measured value change of the level transmitter and a level switch ON / OFF signal change, and a filling or exhaust control method based thereon,
FIG. 6 is a flowchart of an abnormality detection and control method of a pressure tank filling and exhausting system according to another preferred embodiment of the present invention,
7 is a graph showing the flow rate switch signal, the measurement value change of the level transmitter and the abnormality determination according to the level switch ON / OFF signal change and the filling or exhaust control method based thereon,
FIG. 8 is a flowchart of an abnormality detection and control method of a pressure tank filling and exhausting system according to another preferred embodiment of the present invention,
Fig. 9 is a chart showing an abnormality determination according to a change in the pressure sensor measurement value, a change in the measured value of the level transmitter, and a change in the level switch ON / OFF signal, and a filling or exhaust control method based thereon.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, an abnormality detection and control method of a pressure tank filling and exhausting system according to the present invention will be described in detail with reference to the preferred embodiments and the accompanying drawings.

2 is a block diagram of a filling and evacuating system of a pressure tank 100 according to a preferred embodiment of the present invention. As shown in the figure, the pressure tank 100 is provided with one level transmitter LT and three level switches LS1, LS2 and LS3.

2, the NWL (NORMAL WATER LEVEL) is a normal water level of the pressure tank 100, and the water level of the pressure tank 100 is maintained at a proper level at all times in order to stabilize the piping. NH (NORMAL HIGH) and NL (NORMAL LOW) represent the upper range upper limit line and the lower limit number upper line, respectively.

The level transmitter LT is installed so as to be able to measure over the entire water level of the pressure tank 100. The level switch includes a first level switch LS1 installed at a low level alarm line LA, A second level switch LS2 provided in the high level alarm line NWL and a third level switch LS3 provided in the high level alarm line HA.

In the present embodiment, a total of three level switches are used, but the present invention is not limited thereto. A total of two level switches may be used, one for the upper limit and one for the lower limit, or two levels switches may be provided between the upper limit and the upper limit and between the lower limit and the lower limit. A total of four level switches may be used. In addition, in each case, two level switches may be provided in pairs to enable level detection even when an abnormality occurs in one level switch.

3, the level sensing range and output method of the level transmitter LT and the level switches LS1, LS2 and LS3 are schematically shown. As shown in the figure, the level transmitter LT is a kind of analog sensor capable of measuring over the entire water level (0% to 100%), and the measured value is outputted as a current value of 4mA to 20mA. Each of the level switches LS1, LS2, and LS3 is a kind of digital sensor, and when the water level reaches the corresponding level, the level switches LS1, LS2, and LS3 are configured to close the contacts by a floating port or the like and output an ON / OFF signal.

The level transmitter (LT) is a sensor for measuring the water level by a float method or a conductivity measurement method, and has a disadvantage that the water level can be accurately measured in real time, but the failure rate is relatively high and expensive. On the other hand, the level switch has a merit in that it can only measure the level of a certain level as a contact type and thus can not measure the water level in real time, but has a relatively low failure rate and low cost. Therefore, the present invention compensates for the disadvantages of the level transmitter (LT) by using only one level transmitter (LT) having a relatively high failure rate and a high price and using a low number of low-level and low- So that the water level control can be reliably performed at a low cost.

A gas supply device 200 selectively including a gas storage tank (not shown), an air compressor (not shown), or a nitrogen generator is connected to one side of the pressure tank 100 to supply gas therein And an exhaust valve S for discharging the gas to the outside when the water level inside the pressure tank 100 is lowered to the other side. A first flow rate switch FS1 for detecting the flow rate of the gas flowing into the pressure tank 100 is installed on the discharge side of the gas supply device 200, It is preferable that a second flow rate switch FS2 for detecting the flow rate of the gas is provided. The pressure tank 100 may further include a pressure sensor PS for detecting a change in internal pressure.

5 shows a flow chart of the abnormality detection and control method of the pressure tank filling and evacuating system according to the present invention. FIG. 5 shows a change in measured value of the level transmitter LT and ON / OFF of the level switches LS1, LS2, An abnormality determination and control method in accordance with the OFF signal change is shown. This abnormality determination and control method is performed by the control unit 400 shown in Fig.

As shown in FIG. 4, in the first step, the gas is filled in the pressure tank 100 or the gas is exhausted to the outside according to a change in the water level of the pressure tank 100 (ST1). The water level inside the pressure tank 100 changes according to filling or exhausting of the gas, and the amount of change increases with the lapse of time. This change in the water level over time causes a change in the measured value of the level transmitter LT and the ON / OFF signal of the level switch.

In order to determine whether or not the measured value of the level transmitter LT changes in accordance with the change in the water level (that is, whether or not the level transmitter LT is abnormal), the level transmitter (LT) measurement value (ST2). At the same time or sequentially, in order to determine whether the level switches LS1, LS2, LS3 are operated in accordance with the water level change (i.e., abnormality of the level switch), a predetermined period of time The ON / FF signal change of the level switches LS1, LS2, and LS3 is detected (ST3). Here, the preset predetermined time may be determined by the capacity of the pressure tank 100, the interval between the installed level switches LS1, LS2, and LS3, the amount of gas filling or discharging with time, the amount of gas filling, FF signal of the level transmitter (LS), the level transmitter (LT) measurement value, and the level switches (LS1, LS2, LS3) based on the measured values.

Subsequently, based on the result of the change of the level transmitter (LT) measurement value and the result of the ON / OFF signal change of the level switches (LS1, LS2, LS3) for the predetermined period of time sensed above, the level transmitter (ST4) and controls the charging / discharging without excluding the level transmitter (LT) or the level switches (LS1, LS2, LS3) determined as abnormal according to the result of the abnormality determination (ST5 ).

5, when there is a change in the measured value of the level transmitter LT and there is a change in the ON / OFF signals of the level switches LS1, LS2, and LS3, the level transmitter LT and the level It is determined that all of the switches LS1, LS2, and LS3 are normal, and the filling or discharging of the pressure tank 100 is controlled in accordance with the measured value of the level transmitter LT. That is, when the measured value of the level transmitter LT reaches the upper limit water level, the gas is filled into the pressure tank 100. When the measured value of the level transmitter LT reaches the lower limit water level, ) Exhaust to the outside.

When there is a change in the measured value of the level transmitter LT but there is no change in the ON / OFF signals of the level switches LS1, LS2 and LS3, it is judged that the level switches LS1, LS2 and LS3 are abnormal. The water level fluctuates when a predetermined time elapses at the time of filling or exhausting the gas, and the water level fluctuation is sensed by the level transmitter LT or the level switches LS1, LS2 and LS3 while the level of the level transmitter LT changes The absence of a change in the signals of the level switches LS1, LS2, and LS3 can infer that an abnormality has occurred in the level switches LS1, LS2, and LS3. Therefore, in this case, it is determined that the level switches LS1, LS2, and LS3 are equal to or more than the level switches LS1, LS2, and LS3 and an alarm is generated to the outside and the ON / OFF signals of the level switches LS1, LS2, And controls the filling or discharging of the pressure tank 100 according to the measured value.

When there is no change in the measured value of the level transmitter LT and there is a change in the ON / OFF signal of the level switches LS1, LS2, and LS3, it is determined that the level transmitter LT is abnormal and an external alarm is generated. The measured value of the abnormality determination level transmitter LT is excluded and the filling or discharging of the pressure tank 100 is controlled in accordance with the ON / OFF signal of the level switches LS1, LS2, LS3 determined to be normal.

When there is no change in the measured value of the level transmitter LT and there is no change in the ON / OFF signals of the level switches LS1, LS2 and LS3, both of the level transmitter LT and the level switches LS1, LS2, It is judged that there is an alarm, and an alarm is generated to the outside, the system is stopped, and the operation is performed after maintenance.

On the other hand, according to the preferred embodiment of the present invention, the signals of the flow rate switches FS1 and FS2 are checked to confirm whether the filling or evacuation of the gas is actually performed (that is, whether the gas actually flows into or out of the pressure tank) Further comprising the step of detecting. FIG. 6 shows an abnormality detection algorithm of the pressure tank filling and discharging system including the sensing of the flow switch signal.

As shown in FIG. 6, first, the gas is filled or discharged in the pressure tank (ST10), and a signal of the flow rate switches FS1 and FS2 is sensed (ST20) to check whether actual filling or exhaustion is occurring. The flow switches (FS1, FS2) are turned on when the fluid passes and off when it does not. Then, a change in the level transmitter measurement value for a certain period of time after the start of filling or exhausting is sensed (ST30). At the same time or sequentially, the level switch ON / OFF signal change during a certain time after the start of charging or exhausting is sensed (ST40). Then, it is determined whether the level transmitter, the level switch, the gas supply device, or the exhaust valve is abnormal based on the signal of the flow rate switch, the change of the level transmitter measurement value, and the result of the ON / OFF signal change of the level switch (ST50). Then, the filling and discharging of the pressure tank is controlled in accordance with the result of the above-mentioned abnormality determination (ST60).

Using the sensed flow rate switches (FS1, FS2), it is possible to judge whether the flow rate switch, the gas supply device or the exhaust valve is abnormal in addition to the level transmitter (LT) and the level switches (LS1, LS2, LS3). 7, when the signals of the flow rate switches FS1 and FS2 are ON at the time of filling or exhausting the gas, the level transmitter LT and the level switch (LS1, LS2, LS3) is determined, and accordingly, the filling and exhaust control method is performed in the same manner.

On the other hand, when the signals of the flow rate switches FS1 and FS2 are OFF and the measured value of the level transmitter LT and the ON / OFF signals of the level switches LS1, LS2 and LS3 do not change at the time of filling or exhausting the gas In this case, it is determined that there is an abnormality in the gas supply device or the exhaust valve, the alarm is generated, the system is stopped, and the operation is performed again after the maintenance.

If the signals of the flow switches FS1 and FS2 are OFF and the measured value of the level transmitter LT is changed and the ON / OFF signals of the level switches LS1, LS2 and LS3 are also changed, the flow switches FS1 and FS2 ) ≪ / RTI > Thereby generating an abnormality in the flow switch abnormality to the outside, and controlling the filling or discharging of the pressure tank 100 according to the measured value of the normal level transmitter (LT).

According to another preferred embodiment of the present invention, the pressure sensor PS provided in the pressure tank 100 is used to sense the pressure change inside the pressure tank after filling or exhausting the gas, It is possible to determine whether or not the filling / exhausting system is abnormal. FIG. 8 shows an algorithm flow chart for detecting a change in the measured value of the pressure sensor PS and determining whether the system is abnormal. FIG. 9 shows a change in the measured value of the pressure sensor, a change in the measured value of the level transmitter, / OFF The abnormality judgment according to the signal change and the filling or exhaust control method based thereon are arranged in a chart.

As shown in FIG. 8, first, a gas is filled or discharged in a pressure tank (ST100), and a change in a measured value of the pressure sensor is sensed for a certain period of time after the start of filling or exhausting (ST200). Then, a change in the level transmitter measured value for a certain period of time after the start of filling or exhausting is detected (ST300). At the same time or sequentially, the level switch ON / OFF signal change is detected for a predetermined time after the start of charging or exhausting (ST400). Then, it is determined whether the level transmitter and the level switch are abnormal based on the measurement value change of the pressure sensor, the change of the level transmitter measurement value, and the ON / OFF signal change of the level switch (ST500). Then, the filling / discharging of the pressure tank is controlled in accordance with the result of the determination of the abnormality (ST600).

It is possible to judge whether or not the level transmitter LT and the level switches LS1, LS2 and LS3 are abnormal, by detecting whether the measured value of the pressure sensor PS, that is, whether the internal pressure of the pressure tank 100 changes, It is possible to grasp the current state of the inside of the pressure tank 100 more precisely such as whether the pressure tank 100 is blocked or not, whether or not the pressure tank 100 is being closed, Hereinafter, this abnormality determination and control method will be described with reference to FIG.

 9, when there is a change in the measured value of the pressure sensor PS during the filling or exhausting of the gas and there is no change in the measured value of the level transmitter and the ON / OFF signal of the level switch, It is determined that both the level switches are normal.

As shown in Figs. 5 and 7, when there is no change in both the measured value of the level transmitter and the ON / OFF signal of the level switch, it is determined that both the level transmitter and the level switch are abnormal. However, there may be a case where the level transmitter and the ON / OFF signal of the level switch are not changed in spite of the abnormality in the level transmitter and the level switch. This is the case when the pipeline connected to the pressure tank is clogged, when any part of the pipeline is clogged, when the pump is operated on the pipeline to replenish the fluid (fluid), when the pipeline fluid leaks, .

W I pray, when the conduit is connected to the pressure tank 100 is blocked to some part of the blocked, or if the pipeline, even if the gas is filled into a pressure tank 100, or the gas is discharged outside the pressure tank 100, the pipeline is clogged There is no change in the water level in the actual pressure tank, and there is no change in the measured value of the level transmitter and the ON / OFF signal of the level switch, since the fluid does not flow into or out of the pressure tank 100. However, since the gas is filled or discharged into or out of the pressure tank 100, the pressure inside the pressure tank 100 changes, so that the pressure sensor measurement value also changes. Therefore, in this case, both the level transmitter and the level switch are in a normal state.

On the other hand, when the pipeline suffers from the fact that there is no fluid in the pipeline, the pipeline is filled with the fluid by operating the pump for the first time, and when the fluid is filled by operating the pump to compensate for the decrease in the amount of fluid due to the leakage from the pipeline . ≪ / RTI >

When the first channel is filled with fluid to fill the fluid, the pressure level of the pressure tank is '0', so the exhaust valve is opened automatically to raise the water level and the gas inside the pressure tank is exhausted. Even if the exhaust is performed in this way, if there is no fluid in the pipeline, or if there is no minimum pressure that can enter the pressure tank, fluid can not flow into the pressure tank, so the level transmitter's measurement value and level switch ON / OFF signal There is no change. If the amount of fluid entering the pressure tank from the pipeline is similar to the amount of gas filled from the air compressor into the pressure tank, the measured value of the level transmitter and the level switch ON The / OFF signal may have no change.

On the other hand, in the case of the plugging due to the leakage of the pipeline, the head of the pipeline is increased and the gas is compressed by the increased head, so that the fluid in the pipeline flows into the pressure tank by the amount of compressed gas. At this time, if the amount of fluid flowing into the pressure tank from the pipeline is close to the amount of gas filled from the air compressor into the pressure tank, the pressure will rise but there will be no change in the level transmitter measurement value and level switch ON / OFF signal .

In addition, even if the gas is exhausted from the pressure tank, if the water leakage occurs in the pipeline or if the fluid in the pipeline is drained, the head of the pipeline is lowered. As the head of the pipeline is lowered, the gas expands and the amount of the expanded gas The fluid flows out from the pressure tank to the channel. At this time, if the amount of exhausted gas is similar to the amount of fluid flowing out of the pressure tank into the pipeline, the pressure inside the pressure tank is lowered but there is no change in the level, so there is no change in the measured value of the level transmitter and the level switch ON / OFF signal .

If there is a change in the measured value of the pressure sensor, such as when the pipeline is clogged, when the pipeline is being filled, when the pipeline fluid is leaked or drained, or if there is no change in the measured value of the level transmitter and the level switch ON / OFF signal It is judged that both the level transmitter and the level switch are normal. In this case, the filling and discharging of the pressure tank are continuously controlled according to the measured value of the normal level transmitter.

However, if the pipeline is blocked, the pressure inside the pressure tank continuously rises when the filling of the gas continues, and there is a risk of explosion. Therefore, in this case, if the pressure sensor reading reaches a preset pressure upper limit value, a high pressure alarm is generated and the system is calibrated and the pipeline is inspected.

On the other hand, as shown in FIG. 9, when the measured value of the pressure sensor PS does not change at the time of filling or exhausting the gas and when the measured value of the level transmitter and the ON / OFF signal of the level switch are changed It is judged that both the level transmitter and the level switch are normal because the gas is filled in and out of the actual pressure tank and the water level in the pressure tank changes and the pressure does not change. Therefore, · Control the exhaust.

When there is no change in the measurement value of the pressure sensor (PS) when filling or exhausting the gas, and when the measured value of the level transmitter and the ON / OFF signal of the level switch are changed, the water level in the pressure tank is changed, However, when the water level in the actual pressure tank is changed, the pressure value may slightly change. In this case, since the change of the pressure value is very small and the system state is almost the same as the case where there is no change in the actual pressure value, the level transmitter and the level switch are both determined to be normal. It is preferable to control the exhaust.

That is, when filling or evacuating the gas, there is a change in both the measured value of the level transmitter and the level switch ON / OFF signal, and when the change of the measured value of the pressure sensor is within the preset reference value range, It is determined that all of the sensors are normal, and the filling or discharging of the pressure tank is controlled according to the measured value of the level transmitter.

Although the present invention has been described in detail with reference to the embodiments of the present invention, the scope of the present invention is not limited thereto, and the scope of the present invention is substantially equivalent to the embodiments of the present invention.

100: pressure tank 200: gas supply device
400: Control section LT: Level transmitter
LS1: first level switch LS2: second level switch
LS3: Third level switch FS1: First flow switch
FS2: Second flow switch PS: Pressure sensor

Claims (20)

A pressure tank provided for a water hammer prevention control or an expansion control in a piping system; A level transmitter for measuring a level of the pressure tank; A plurality of level switches installed at different heights in the pressure tank; And a gas supply device for supplying a gas to the pressure tank, the abnormality detection control method comprising:
Filling or evacuating the gas in the pressure tank;
Sensing a change in the level transmitter measurement value after the filling of the gas or the start of the exhaust;
Sensing a change in the ON / OFF signal of the level switch after filling of the gas or start of exhaust;
Determining whether the level transmitter and the level switch are abnormal based on a change in the level transmitter measured value for a predetermined period of time and a result of ON / OFF signal change of the level switch;
And controlling the filling or exhausting of the pressure tank according to the determination result of the abnormality determination. The method according to claim 1,
Wherein the step of detecting the change of the level transmitter measured value and the step of detecting the ON / OFF signal change of the level switch are performed for a predetermined time after filling or exhausting of the gas. Detection control method. 3. The method according to claim 1 or 2,
If there is a change in the measured value of the level transmitter and there is a change in the level switch ON / OFF signal, it is determined that both the level transmitter and the level switch are normal and the filling or exhausting of the pressure tank is controlled in accordance with the measured value of the level transmitter A method for controlling abnormality detection of a filling / exhaust system of a pressure tank. 3. The method according to claim 1 or 2,
Wherein when the measured value of the level transmitter is changed and there is no change in the level switch ON / OFF signal, it is determined that the level switch is abnormal and the filling or exhausting of the pressure tank is controlled in accordance with the measured value of the level transmitter. Anomaly Detection Control Method of Tank Filling and Exhaust System. 3. The method according to claim 1 or 2,
When there is no change in the measured value of the level transmitter and there is a change in the level switch ON / OFF signal, it is determined that the level transmitter is abnormal and the filling or exhausting of the pressure tank is controlled in accordance with the ON / OFF signal of the level switch A method for controlling abnormality detection of a filling / exhaust system of a pressure tank. 3. The method according to claim 1 or 2,
And when the measured value of the level transmitter does not change and there is no change in the level switch ON / OFF signal, it is determined that there is an abnormality in both the level transmitter and the level switch, and the system is stopped. Wherein the abnormality detection control method comprises: A pressure tank provided for a water hammer prevention control or an expansion control in a piping system; A level transmitter for measuring a level of the pressure tank; A plurality of level switches installed at different heights in the pressure tank; A gas supply device for supplying gas to the pressure tank; An exhaust valve installed in the pressure tank for discharging the gas inside the pressure tank to the outside when the level of the pressure tank is lowered; And a flow rate switch for detecting a flow rate of a gas which is respectively provided on the discharge side of the gas supply device and on the discharge side of the exhaust valve and which is filled or exhausted into and out of the pressure tank,
Filling or evacuating the gas in the pressure tank;
Sensing a flow rate switch signal upon filling or evacuating the gas;
Sensing a change in the level transmitter measurement value after the filling of the gas or the start of the exhaust;
Sensing a change in the ON / OFF signal of the level switch after filling of the gas or start of exhaust;
Determining whether the level transmitter and the level switch are abnormal based on a signal of the sensed flow switch, a change of the level transmitter measurement value, and a result of the ON / OFF signal change of the level switch;
And controlling the filling or exhausting of the pressure tank according to the determination result of the abnormality determination. 8. The method of claim 7,
Wherein the step of detecting the change of the level transmitter measured value and the step of detecting the ON / OFF signal change of the level switch are performed for a predetermined time after filling or exhausting of the gas. Detection control method. 9. The method according to claim 7 or 8,
When the signal of the flow rate switch is ON at the filling or exhausting of the gas, the measured value of the level transmitter is changed, and the level switch ON / OFF signal is changed, it is determined that both the level transmitter and the level switch are normal, Wherein the filling or exhausting of the pressure tank is controlled according to the measured value of the pressure tank. 9. The method according to claim 7 or 8,
If the flow switch signal is ON when filling or evacuating gas, there is a change in the measured value of the level transmitter, and there is no change in the level switch ON / OFF signal, it is determined that the level switch is abnormal, Thereby controlling the filling or exhausting of the pressure tank. 9. The method according to claim 7 or 8,
If there is no change in the measured value of the level transmitter and there is a change in the level switch ON / OFF signal when the signal of the flow rate switch is ON at the time of filling or exhausting the gas, it is determined that the level transmitter is abnormal, OFF signal to control the filling or exhausting of the pressure tank. 9. The method according to claim 7 or 8,
When the signal of the flow rate switch is ON at the time of filling or exhausting of gas and there is no change in the measured value of the level transmitter and there is no change in the level switch ON / OFF signal, it is judged that there is an abnormality in both the level transmitter and the level switch , And the system is stopped. 9. The method according to claim 7 or 8,
It is determined that there is an abnormality in the gas supply device or the exhaust valve when the signal of the flow rate switch is OFF and the measured value of the level transmitter and the ON / OFF signal of the level switch are not changed at the filling or exhausting of the gas, Wherein the control unit stops the abnormality detection of the pressure tank filling and exhausting system. 9. The method according to claim 7 or 8,
If the signal of the flow switch is OFF and the measured value of the level transmitter is changed and the ON / OFF signal of the level switch is also changed, it is judged that the flow switch is abnormal and the flow switch error alarm is generated outside. And the filling or exhausting of the pressure tank is controlled according to the measured value. A pressure tank provided for a water hammer prevention control or an expansion control in a piping system; A level transmitter for measuring a level of the pressure tank; A plurality of level switches installed at different heights in the pressure tank; A gas supply device for supplying gas to the pressure tank; An exhaust valve installed in the pressure tank for discharging the gas inside the pressure tank to the outside when the level of the pressure tank is lowered; An abnormality detection control method for a pressure tank filling and exhausting system including a pressure sensor for detecting a pressure inside a pressure tank,
Filling or evacuating the gas in the pressure tank;
Sensing a change in pressure sensor readings after the filling of the gas or the start of evacuation;
Sensing a change in the level transmitter measurement value after the filling of the gas or the start of the exhaust;
Sensing a change in the ON / OFF signal of the level switch after filling of the gas or start of exhaust;
Determining whether the level transmitter and the level switch are abnormal based on the measurement value change of the pressure sensor, the change of the level transmitter measurement value, and the ON / OFF signal change of the level switch;
And controlling the filling or exhausting of the pressure tank according to the determination result of the abnormality determination. 16. The method of claim 15,
The step of detecting the change of the pressure sensor measurement value, the step of sensing the change of the level transmitter measurement value, and the step of sensing the ON / OFF signal change of the level switch may be performed for a predetermined period of time after filling or exhausting the gas A method for controlling abnormality detection of a filling / exhaust system of a pressure tank. 17. The method according to claim 15 or 16,
If there is a change in the measured value of the pressure sensor when filling or evacuating the gas, and if the measured value of the level transmitter and the level switch ON / OFF signal are not changed, it is determined that both the level transmitter and the level switch are normal. And the filling or exhausting of the pressure tank is controlled according to the value of the pressure of the pressure tank. 18. The method of claim 17,
And generating an alarm when the measured value of the pressure sensor reaches a preset pressure upper limit value and stopping the system. 17. The method according to claim 15 or 16,
When there is no change in the measured value of the pressure sensor when filling or evacuating the gas, and when the measured value of the level transmitter and the level switch ON / OFF signal are both changed, it is determined that the level transmitter, the level switch, And the filling or exhausting of the pressure tank is controlled according to the measured value of the level transmitter. 17. The method according to claim 15 or 16,
When filling or evacuating the gas, both the measured value of the level transmitter and the level switch ON / OFF signal are changed. When the change of the measured value of the pressure sensor is within the preset reference value range, the level transmitter, And the filling or exhausting of the pressure tank is controlled in accordance with the measured value of the level transmitter.

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