KR100270025B1 - A apparatus for sensing leakage in booster pump system and mothod thereof - Google Patents

Abstract

PURPOSE: A leakage sensing device and method for a booster pump system are provided to stably use a pump by deciding leakage with sensing of discharge amount of pump thorough a flux sensor connected from a pump discharge side and to immediately control leakage of piping or disorder of pump. CONSTITUTION: Plural pumps(200) are installed as to maximally operate then a set value is stored in a control board(610) inside a control panel(600). A button of the control panel(600) pump water to a discharge piping upon operational start of pump. Around the discharge piping, a pressure tester(300) is arranged for controlling operation of pump. Plural optical sensors(400) detect rpm(revolutions per minute) of pump(200) to output to the control panel(610). A control board(610) inside the control panel compares the detected data from the optical sensor and from the flux sensor(500) with pre-stored set data for discriminating leakage. In case of under the pre-established data, a pump inspection and piping inspection display control signal is generated.

Description

Apparatus and method for leak detection in booster pump system {A apparatus for Sensing leakage in Booster pump System and mothod

The present invention relates to a booster pump system, and in particular, by mounting an optical sensor in the pump to detect the pump RPM (RPM) and the discharge amount of the pump through the flow sensor connected from the pump discharge side, by using the pump more stably In addition, the present invention relates to a leak detection apparatus and method for booster pump system that detects a leak caused by a failure of a pump or a leak of other pipes and copes with it early.

As is well known, the booster pump system is a system that draws water to the ground by installing it underground, unlike a water tank installed on a general roof, and is currently being rapidly spread.

As shown schematically in FIG. 1, a plurality of vertical multistage pumps 10 capable of pumping water from a low place to a high place generally, and a control board for electronically controlling the vertical multistage pumps 10. It consists of the control panel 20 in which 20a was built.

In addition, the vertical multistage pumps 10 are connected to each other by a pipe, and the suction side of the pipe is pumped to the water tank 40, and the discharge side of the pump to the water where necessary.

First, when the pump starts operation through a button (not shown in the drawing) installed at a predetermined position of the control panel 20, the plurality of vertical multistage pumps 10 pump water from the water tank 40 to discharge the water. To be pumped into the pipe.

At this time, the pressure gauge 30 for transmitting the pressure of the pump as an electrical signal is installed in the vicinity of the discharge pipe to control the operation of the pump in accordance with this pressure.

After the booster pump system is installed, it will be used for several years on the spot. In this drawing, the piping is simplified, but it is used in an apartment complex, wedding hall, villa, etc.

Therefore, when a long time is used, the performance may fall due to the aging of the pipe, the aging of the pump, or the like.

Therefore, such a conventional booster pump system has no way of detecting a leak in a booster pump system that is long after the pump is installed or by accident. There was no way to distinguish between them.

Therefore, there is a problem that the user can not pinpoint the cause of the failure of the pump system due to the re-pressure does not come out if a leak occurs, such as water leaks in the various pipes connected to the pump pipe.

Therefore, the present invention is equipped with a light sensor in the pump to detect the pump (RPM) of the pump and the discharge amount of the pump through the flow sensor connected from the pump discharge side to determine whether or not leak, it is possible to use the pump more stably In addition, the object of the present invention is to provide a leak detection device and method in a booster pump system that can immediately respond to a pump failure or other leaks in the piping.

Technical means of the present invention for achieving the above object is, a plurality of arpm detecting means for detecting an LP of the pump, respectively installed in the plurality of pumps, flow rate detecting means for detecting the discharge flow rate of the pump, and the plurality of Control means for controlling the operation of the pump by comparing the data detected by the RMP detection means and the flow rate detection means with the previously stored experimental data to determine the leakage of the pump, and generating control signals for pump check and pipe check. And display means for visually displaying the pump check and the pipe check display according to the pump check and the pipe check display control signal output from the control means.

In addition, the technical method of the present invention for achieving the above object, the first step of setting the environment in advance so as to discharge the optimal ALPM and the optimum flow rate of the pump, and the flow rate discharged with the ALPM of the pump when the pump is driven And a third step of determining whether or not the leakage is compared by comparing the detected LP and the flow rate data with the optimal data set in advance, and the data detected by the determination is smaller than the preset value. In the case of stopping the pump and visually displaying the pump check and the pipe check indication, and if the data detected in the determination is equal to or larger than the preset value, the feedback is repeatedly performed to the second step. It is characterized by consisting of a fifth step.

1 is a schematic configuration diagram of a conventional booster pump system,

Figure 2 is a block diagram showing a leak detection device in the booster pump system according to the present invention,

3 is a flowchart illustrating the operation of FIG. 2.

*** Explanation of symbols for the main parts of the drawing ***

100: water tank 200: a plurality of pumps

300: pressure gauge 400: light sensor

500: flow sensor 600: control panel

610: Control Board

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

Figure 2 is a block diagram showing a leak detection device in the booster pump system according to the present invention, Figure 3 shows an operational flow for explaining FIG.

In the present invention, a plurality of optical sensors 400 respectively installed in the plurality of pumps 200 to detect an LPPM of the pump, a flow rate sensor 500 to detect a discharge flow rate of the pump, and the plurality of lights The control board 610 which stops the pump and compares the detected values output from the sensor 400 and the flow sensor 500 with previously stored set values to determine the leak of the pump, and generates control signals for pump check and piping check. It further comprises a control panel 600 having a) and a display unit 700 for visually displaying the pump check and pipe check display in accordance with the pump check and pipe check display control signal output from the control panel 600 have.

Referring to Figures 2 and 3 attached to the operation and effect of the present invention configured as described above are as follows.

First, after the plurality of pumps 200 are installed, the pumps are set to be operated, but the pump is operated as much as possible, and then the set values are stored in the control board 610 in the control panel 610. (ST10, ST20)

Once stored, this value is preserved unless the power is turned off for a long time, so data continuity is good.

Then, when the pump starts operation through a button (not shown in the drawing) installed at a predetermined position of the control panel 600, a plurality of pumps 200 pump water from the water tank 100 to discharge water into the discharge pipe. To pump.

At this time, the pressure gauge 300 for transmitting the pressure of the pump as an electrical signal is installed in the vicinity of the discharge pipe to control the operation of the pump in accordance with this pressure.

In this control state, the plurality of optical sensors 400 installed in the plurality of pumps 200 detects the ALPMs of the rotational speeds of the plurality of pumps 200 and outputs them to the control panel 610. (ST30)

In addition, the flow rate sensor 500 installed on the discharge side also detects the flow rate discharged through the plurality of pumps 200 and outputs it to the control panel 610.

Accordingly, the control board 610 in the control panel 600 compares the detection data output from the light sensor 400 and the flow sensor 500 with the preset data stored in advance to determine the leak of the pump. (ST40)

If the detected data is equal to or larger than the previously stored setting data, the normal operation is continued.

On the other hand, when the data detected as a result of comparison is smaller than the previously stored set data, it is determined that the pump is broken or other pipe leaks, and the pump is stopped and pump check and pipe check display control signals are generated.

Accordingly, the display unit 700 visually displays the pump check and pipe check signs according to the pump check and pipe check display control signals output from the control board 610 in the control panel 600 to allow the driver to check. (ST50)

Therefore, in the present invention, by installing an optical sensor in the pump to detect the pump LPMP and the discharge amount of the pump through the flow sensor connected from the discharge side, it is possible to use the pump more stably, as well as failure of the pump or other By detecting leaks caused by water leaks in the pipe, it is possible to cope with the early stage, and thus quick A / S is possible.

Claims (2)

A plurality of arpm detecting means respectively installed in the plurality of pumps to detect an arpm of the pump; Flow rate detecting means for detecting a discharge flow rate of the pump; Comparing the data output from the plurality of RMP detection means and the flow rate detection means with experimental data stored in advance to determine the leakage of the pump, controlling the operation of the pump and generating a pump check and pipe check display control signal. Control means; And And a display means for visually displaying a pump check and a pipe check display according to a pump check and a pipe check display control signal output from the control means. A first step of setting the environment in advance so as to discharge the optimum ALPM and the optimum flow rate of the pump; A second step of detecting an ALPM of the pump and a flow rate discharged when the pump is driven; A third step of determining whether there is a leak by comparing the detected PM and the flow rate data with preset optimal data; A fourth step of stopping the pump and visually displaying a pump check and a pipe check indication when the data detected by the determination is smaller than a preset value; And And if the data detected by the determination is equal to or larger than a previously stored set value, a fifth step of performing feedback by repeatedly feeding back to the second step.

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