KR200262481Y1 - hydrostat - Google Patents

Abstract

The present invention relates to a prefabricated flooring, and more particularly, a probe connected to a water pipe, a transducer for detecting sound waves, a transducer for converting sound waves of the probe into an electrical signal, and a primary amplifier for amplifying the output of the transducer and the amplifier. Analyze and control the output of the filter to output only the specific frequency band, the secondary amplifier that amplifies the output of the filter, and the comparator comparing the output of the amplifier with a predetermined value and the normal sound wave value input in advance. The present invention relates to a leak detector comprising a microprocessor for generating a signal and an indicator device driven by a control signal of the microprocessor to determine whether there is a leak and to express it with the indicator device.

Thereby, there is an advantage that the leak detector is configured to continuously detect the leak.

In addition, there is an advantage that a leak detector that provides a leak point when a leak occurs.

Description

Leak Detector {hydrostat}

The present invention relates to a prefabricated flooring, and more particularly, a probe connected to a water pipe, a transducer for detecting sound waves, a transducer for converting sound waves of the probe into an electrical signal, and a primary amplifier for amplifying the output of the transducer and the amplifier. Analyze and control the output of the filter to output only the specific frequency band, the secondary amplifier that amplifies the output of the filter, and the comparator comparing the output of the amplifier with a predetermined value and the normal sound wave value input in advance. The present invention relates to a leak detector comprising a microprocessor for generating a signal and an indicator device driven by a control signal of the microprocessor to determine whether there is a leak and to express it with the indicator device.

In general, leaks are leaks caused by rainwater, leaks due to rupture of sewer pipes, leaks due to cracks due to poor waterproofing layers, water leaks due to condensation due to temperature difference between inside and outside, and indoors caused by pipes that are buried indoors. It is divided into water leakage and outdoor leakage that occurs in pipes buried in outdoor ground.

Among them, especially in the case of indoor leakage, there is a problem of causing damage to the residents of the lower house, material damages such as interior materials and finishing materials, and inconvenience of living. There is a problem causing secondary damage.

Therefore, it is necessary to detect leaks in advance and take countermeasures before damage increases.

The use of the term leak survey in our country began in the early 1980s and has a long history. At that time, if there were leaks, the only way to find out was to dig up the floor with years of equipment experience. But now, if you tear off the high-quality interior materials and dig up and down the asphalt to catch the leak, there is a problem that the additional cost than the repair cost.

The present invention has been made to solve the above problems, and the object of the present invention is to provide a leak detector that is added to a building to continuously detect whether there is a leak, and to indicate a leak point by calculating a leak distance when a leak occurs. .

1 is a circuit block diagram of a leak detector according to the present invention.

In order to achieve the above object, the present invention specifies a probe connected to a water pipe, a transducer for detecting sound waves, a transducer for converting sound waves of the probe into an electrical signal, a primary amplifier for amplifying the output of the transducer, and an output of the amplifier. A filter for outputting only a frequency band, a secondary amplifier for amplifying the output of the filter, a comparator for comparing the output of the amplifier with a predetermined value and a normal sound wave value input in advance, and generating a control signal by analyzing the output of the comparator. The present invention includes a microprocessor and an indicator device driven by a control signal of the microprocessor to determine whether there is a leak and to express it as an indicator device.

In addition, the probe is connected to each end of the water pipe, a plurality of connected to detect the sound source information, the microprocessor distinguishes and detects the sound source information of each probe to compare the detection time of each probe, the arrival of the sound source when the abnormal sound source occurs Preferably, the leak detector is characterized in that the detection of the leak point is possible by calculating the time.

As a result, there is an advantage in that a leak detector is always supervised by a microprocessor.

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

1 is a circuit diagram according to the present invention.

Fig. 1 shows a probe for detecting sound waves and a transducer, a primary amplifier, a filter, a secondary amplifier, a comparator, a microprocessor, and an indication device for electrically interpreting the signal of the probe.

The probe is always in contact with the water pipe, thereby making it possible to continuously detect sound waves.

The minute vibration transmitted through the water pipe is converted into an electrical signal through the transducer, and the signal is converted into an interpretable value by the primary amplifier.

The micro vibration is different from the normal value and the abnormal occurrence value.

This is because the sound waves in the water pipe usually constitute a sound range different from the normal time.

In other words, when a leak occurs, the sound of the pipe is ruptured, vibrations ringing the ground, and the sound of the air passing through the air are mixed to form a leak sound. Generally, a leak is sustained by a certain pressure so that a constant sound pressure of a specific frequency is generated. The range and intensity of the sound is formed.

Since the sound source information is utilized only in a specific frequency band as described above, the output of the primary amplifier is filtered so that only a specific frequency band value is output.

Since the magnitude of the signal decreases through the filtering operation, the output of the filter is amplified by the secondary amplifier to compensate for this.

The output value of the secondary amplifier will be a sound wave size value of a specific frequency band. The comparator generates a signal related to abnormality by comparing it with a normal sound wave input in advance.

The output of the comparator is output to a microprocessor, and the microprocessor generates a control signal to the indicating device according to the output of the comparator.

The indicating device is composed of a display window for expressing the signal content in a graph, or means for causing an abnormality to be expressed to the outside by a buzzer or a diode.

That is, by the indicator, the presence or absence of abnormality of the sound source information is represented by a graph, and when an abnormality occurs, an alarm sound is generated or whether or not an alarm of a light source emitting red or light is executed.

Hereinafter, the use of the leak detector according to the present invention will be described.

First, the probe of the present invention is set in the pipeline.

The setting is preferably set in a leak-free pipeline.

Sound source information of the normal pipe is input to the microprocessor.

The microprocessor provides sound source information of a normal channel as a comparison input of a comparator.

The sound source detection of the probe is considered to be made periodically.

To this end, the microprocessor preferably generates a control signal so that the driving of the probe is performed periodically. Therefore, the leak detector according to the present invention should be provided with an input device capable of setting a detection period and a detection time.

The input device is configured by a keypad capable of inputting a predetermined command to the microprocessor.

The sound source information of the probe is compared with the comparator of the present invention by detecting the sound source information continuously and periodically according to the set period.

When leakage occurs due to comparison of sound source information of the comparator, the microprocessor displays an abnormality through an alarm sound and an alarm light.

The probe is preferably connected to the end of each conduit so that the detection time of the sound source between the probes is detected comparatively.

This is because the leak point can be calculated by the detection time of the sound source.

The leak point is automatically calculated by the microprocessor for display on the display.

In the description of the present invention, the method of inputting the normal sound source to the microprocessor was described in advance. Alternatively, it is also possible to input the information about the abnormal sound source and compare the abnormality.

According to the present invention described above, there is an advantage that the leak detector is configured to continuously detect the leak.

In addition, there is an advantage that a leak detector that provides a leak point when a leak occurs.

Claims (2)

A probe connected to the water pipe and detecting sound waves; A transducer for converting sound waves of the probe into an electrical signal; A primary amplifier for amplifying the output of the converter; A filter for outputting only the specific frequency band of the output of the amplifier; A second amplifier for amplifying the output of the filter; A comparator for comparing the output of the amplifier with a predetermined value and a normal sound wave value input in advance; A microprocessor for generating a control signal by analyzing the output of the comparator; An indication device driven by a control signal of the microprocessor; A keypad for inputting a control command of the microprocessor; It is configured to include a leak detector, characterized in that for indicating whether the leaking indicating device. The method of claim 1 wherein the probe is It is connected to each end of the water pipe plurally connected to detect the sound source information, The microprocessor detects the sound source information of each probe independently and compares the detection time of each probe so that the leak point can be detected by calculating the arrival time of the sound source when an abnormal sound source is generated.