KR100879018B1 - Device for measuring instantaneous flux in water gauge - Google Patents

Abstract

A device for measuring instantaneous flux in water gauge is provided to improve watertightness of a PCB by preventing resin from draining with an external magnetic cut-off ring surrounding a PCB. A device for measuring instantaneous flux in water gauge includes a disk-shaped PCB consisted of multiple sensors(11) arranged radially. An external magnetic force cut-off ring(20) blocking the unnecessary magnetic force is installed at the outer circumference of the PCB. The external magnetic force cut-off ring prevent flooding of resin when pouring water sealing resin into the PCB and then solidifying it. The heating seat(30), which prevents escape before the sealing resin is solidified, is formed in the lower part of the external magnetic force cut-off ring and the PCB.

Description

Device for measuring instantaneous flux in Water Gauge

The present invention relates to an instantaneous flow rate measuring device for a mechanical water meter, and more particularly to the outer periphery of the circuit board constituting the measuring device to block the unnecessary magnetic force from the outside to prevent malfunctions while acting as a border of the sealing resin for watertightness. By providing a blocking ring to the lower portion of the circuit board, by preventing the leakage of the sealing resin in the manufacturing process and by installing a heating sheet to prevent the malfunction of the sensor by preheating the circuit board when the winter temperature is lower than the set value, An instantaneous flow rate measuring device for a mechanical water meter providing reliability and convenience of an instantaneous flow rate measuring device.

In general, one of the key management factors in managing tap water supply is the management of leaks. In other words, when supplying tap water, leakage occurs due to deteriorated water pipes or construction defects, and taking such measures as exploring and analyzing such leaks and replacing old pipes is a key point of tap water supply management.

Leak survey is essential for water meters installed on a block-by-block basis. That is, it is basic to install a meter that fits the diameter of the corresponding pipe line in the inlet and outlet of the water purification and drainage stations, and the inlet and outlet of each block to detect the leak.

Various types of water meters are developed and used according to pipe size, tap water usage, and water metering purposes. Representative meters include electronic, ultrasonic and mechanical meters. In relation to tap water metering, an electronic meter and an ultrasonic meter not only measure the cumulative amount of tap water flowing through the pipeline for a certain period of time, but also have the advantage of measuring the real-time flow rate flowing through the pipeline at the present time.

However, electronic meters and ultrasonic meters are relatively expensive and may have a large measuring error for a flow rate of 5% or less of a proper capacity. It is not suitable for use for measuring a small quantity of water at low cost.

The propeller type water meter (hereinafter referred to as mechanical water meter), one of the representative mechanical meters, has a very simple structure and a considerably cheaper price compared to the electronic or ultrasonic type, but accumulates very precisely in the flow scale of 80 mm to 250 mm water pipes. It is widely used because it has the advantage of being able to measure.

However, the propeller type water meter can measure the cumulative flow rate at low equipment cost, but it has a limitation in measuring the real-time flow rate flowing through the pipeline.

In analyzing and managing the leak rate of each block by applying the block system, the method of exploring leaks is analyzed by analyzing the daily use pattern of the tap water of the target block and measuring the change of the flow rate at the point of use of the minimum amount. Given that it is widely used as an exploration method, the current flow rate of the propeller type water meter is not known.

In view of the conventional problems, the present inventor has registered the instantaneous flow rate measuring device for a water meter, which can measure the instantaneous flow rate by simply installing it in a mechanical water meter that cannot measure the instantaneous flow rate, as Practical Registration No. 349291.

The present invention relates to an improvement of the instantaneous flow rate measuring apparatus of the present inventors, and an object of the present invention is to seal the watertightness of the circuit board constituting the instantaneous flow rate measuring apparatus with a sealing resin for watertightness while preventing unnecessary malfunction by blocking external magnetic force. A blocking ring serving as an edge of the circuit board is provided, and a lower portion of the circuit board prevents leakage of the sealing resin during the manufacturing process, and preheats the circuit board to prevent malfunction of the sensor when the winter temperature falls below a set value. The present invention provides an instantaneous flow rate measuring device for a mechanical water meter that provides reliability and convenience of manufacturing the instantaneous flow rate measuring device.

Another object of the present invention is to be applied to a large or small diameter water meter as one instantaneous flow rate measuring device to increase the compatibility, and also to prevent the shaking of the measuring device to ensure accurate operation performance when mounted to the water meter The reliability of the product is improved, and the instantaneous flow rate is transmitted to a remote monitoring center so that the measured value can be transmitted wired or wirelessly to provide an instantaneous flow rate measuring device for a mechanical water meter that can check whether there is a leak without visiting the site.

To this end, the present invention installs a measuring device having a plurality of sensors between the water meter body and the counter gas, and when the driving magnet inside the water meter body rotates, the driven magnet inside the counter gas is rotated and accumulated in the counter gas. In the instantaneous flow rate measuring device for a mechanical water meter in which the flow rate is displayed and the instantaneous flow rate through the water meter is detected by the sensor, the measuring device includes a disk-shaped circuit board on which the plurality of sensors are disposed radially. It is provided, the outer periphery of the circuit board is provided with an external magnetic force blocking ring for preventing the flow overflow when curing the liquid water-tight sealing resin on the circuit board while blocking the unnecessary magnetic force of the outside, the circuit board and the external magnetic force The lower part of the blocking ring prevents the sealing resin from flowing out before it is cured. It is characterized in that is provided a heat generating sheet for preventing.

According to the present invention by installing an external magnetic shield ring surrounding the circuit board by the outer periphery of the circuit board of the instantaneous flow rate measuring device placed between the mechanical water meter body and the counter gas of the upper part of the main body on the circuit board due to external unnecessary magnetic force Malfunction of the mounted sensor is prevented, so the flow rate can be measured accurately.

The resin is poured into the upper portion of the circuit board to be watertight when the measuring device is manufactured. The resin is enclosed in the circuit board without the resin flowing out by the blocking ring surrounding the circuit board, thereby improving the watertightness of the circuit board. In particular, the lower portion of the circuit board is provided with a heating sheet that prevents the flow of the resin and prevents the malfunction of the sensor by preheating the circuit board in the winter, the reliability of the product is improved.

In addition, the size of the water meter used in the case of 80mm water pipe or 250mm water pipe is different, it is a measuring device applied to the 80mm water pipe meter, when using the 250mm water pipe meter using a separate center retaining ring without shaking the water meter and By precisely placed between the counter gas, it is possible to use two water meters of different diameters as one measuring device, there is no need to produce a measuring device for each water pipe diameter, there is an effect such as improving the compatibility of the product.

1 is an exploded perspective view of an instantaneous flow rate measuring device according to an embodiment of the present invention, and FIG. 2 is a cross-sectional view of the instantaneous flow rate measuring device according to an embodiment of the present invention. The measuring device according to the embodiment of the present invention includes a disk-shaped circuit board 10 in which a plurality of sensors 11 for detecting a rotating magnetic field are radially installed.

A through hole 12 is formed at the center of the circuit board 10, and a plurality of sensor arrangement grooves 13 in which the sensors 11 are placed are radially disposed at an inner circumference of the through hole 12 so that the sensor ( 11) do not protrude to the top of the circuit board 10.

The outer periphery of the circuit board 10 is provided with an external magnetic force blocking ring 20 which slightly surrounds the circuit board 10 and protrudes slightly above the circuit board. The external magnetic force blocking ring 20 serves as a fence of the watertight sealing resin 40 surrounding the circuit board 10 while blocking the unnecessary magnetic force from the outside in order to prevent malfunction of the sensors 11.

In addition, a lower portion of the circuit board 10 is provided with a heat generating sheet 30 attached to the bottom surface of the circuit board 10 and the external magnetic shield ring 20. The heat generating sheet 30 functions to prevent the sealing resin 40 from flowing out of the circuit board 10 before the sealing resin 40 is cured in the manufacturing process of the measuring device, and also the temperature of the circuit board 10. When the winter temperature drops sharply in conjunction with the sensor 14, the circuit board 10 is heated to prevent a malfunction of the sensor 11.

The measuring device is placed between the meter cap 63 and the counter gas 70 on the upper portion of the water meter main body 60, and the counter gas 70 is a coupler 64 formed by the outer circumference of the meter cap 63. The counter cover 72 is pivotally fastened. In addition, the signal line 15 connected to the circuit board 10 of the measuring device is led to a hole 73 drilled in the counter cover 72 to transmit a signal to a remote location by wire or wirelessly.

In addition, a controller 50 is disposed on the circuit board 10 to be electrically connected to the sensor 11. The water meter main body 60 is connected to the circuit board 10 based on the period of the rotating magnetic field detected by the sensor 11. It serves to calculate the real-time instantaneous flow rate flowing through the remote location, and comprises a control unit for the operation, a memory and a transmission unit for transmission to the remote site.

The measuring device of an embodiment of the present invention configured as described above is manufactured by the following method. First, the circuit board 10 includes a plurality of sensors 11 for detecting a rotating magnetic field radially, and a controller for calculating and storing a real-time instantaneous flow rate based on a signal of the sensor and sending it to a remote place. 50 is integrally purchased. The outer magnetic shield ring 20 is installed at the outer circumference of the circuit board 10, and the heating sheet 30 is attached to the bottom surface of the circuit board 10 and the blocking ring 20. When the liquid sealing resin 40 is poured into the upper portion of the circuit board 10, the sealing resin 40 is not overflowed or spilled by the blocking ring 20 and the heat generating sheet 30 at the bottom of the circuit board 10. The substrate 10 is cured while wrapped.

The measuring device manufactured as described above may block the external magnetic force when the blocking ring 20 and the heating sheet 30 serve as a mold during the manufacturing process and are installed in the field after the production, and the winter temperature drops sharply. Preheating the circuit board 10 serves as a multifunction to prevent the malfunction of the sensor 11 can be obtained the effect of two stone two.

Such a measuring device is installed as shown in FIG. 4, and the operation process thereof will be described. First, when water flows into the water meter main body 60, the inner blade 62 rotates in one direction. At this time, the disc-shaped drive magnet 61 connected to the blade 62 is rotated and the driven magnet 71 inside the counter gas 70 installed to correspond to the blade 62 is rotated together by the rotating magnetic force of the drive magnet 61. The cumulative flow rate is displayed by rotating the indicator needle inside the counter gas 70.

In addition, the measuring device of an embodiment of the present invention mounted between the water meter main body 60 and the counter gas 70 detects the rotating magnetic field of the driving magnet 61 by a plurality of sensors 11 and generates a signal line 15. Sends a detection signal to the controller 50 through. Then, an A / D converter or the like inside the controller 50 converts the output of the sensor 11 into digital data, and displays the measured real-time flow rate on the flow rate display part as a digital number, and also by the controller 50. Measured and processed flow data is sent to remote sites for monitoring of leak rates.

The measuring device is provided with a heating sheet 30 in the lower portion of the circuit board 10, the heating sheet 30 is detected by the temperature sensor 14 when the external temperature falls below the winter set value, the controller ( Signal 50). Accordingly, the controller 50 operates the heating sheet 30 to preheat the circuit board 10. The controller 50 prevents malfunction of the sensors 11 mounted on the circuit board 10 and prevents the malfunction of the circuit board 10. It prevents the distortion of the arrangement height between the sensors 11 by twisting.

The measuring device is placed inside the meter cap 63 in the upper part of the water meter main body 60. Since the inside of the meter cap 63 is different from each other according to the large or small diameter of the water meter main body 60, The placement of the circuit board 10 may be wrong. Therefore, in the case of large diameter, when the center retaining ring 16 is inserted into the inner circumference of the meter cap 63, the circuit board 10 is placed inside the center retaining ring 16, so that the driving magnet 61 and the driven magnet ( The sensors 11 may be arranged at the center of the 71. It is also natural that the small diameter water meter does not need to use the center retaining ring 16.

1 is an exploded perspective view of an instantaneous flow rate measuring device according to an embodiment of the present invention;

2 is a cross-sectional view of an instantaneous flow rate measuring device according to an embodiment of the present invention.

Figure 3 is an exploded perspective view of the water meter to which the measuring device of one embodiment of the present invention is applied

4 is a cross-sectional view of the water meter to which the measuring device of one embodiment of the present invention is applied.

<Code Description of Main Parts of Drawing>

10: circuit board 11: sensor

14: temperature sensor 15: signal line

16: center holding ring 20: external magnetic shield ring

30: heating sheet 40: sealing resin

50: controller 60: water meter body

61: driving magnet 70: counter gas

71: driven magnet

Claims (3)

If a measuring device having a plurality of sensors is installed between the main body of the water meter and the counter, and the driving magnet inside the main body of the water meter rotates, the driven magnet inside the counter is rotated to display the accumulated flow rate in the counter. In the instantaneous flow rate measuring device for a mechanical water meter in which the instantaneous flow rate flowing through the water meter is detected by the sensor, The measuring device is provided with a disk-shaped circuit board in which the plurality of sensors are disposed radially, The outer periphery of the circuit board is provided with an external magnetic shielding ring to prevent the flow of when the liquid-sealed sealing resin poured on the circuit board to harden while blocking the unnecessary magnetic force of the outside, Instantaneous flow rate measuring device for a mechanical water meter, characterized in that the lower portion of the circuit board and the external magnetic shield ring is provided with a heating sheet to prevent it from leaking out before the sealing resin is cured. The method of claim 1, The circuit board is provided with a temperature sensor for detecting when the external temperature falls below the winter set value, The controller provided on the circuit board is instantaneous flow rate measuring device for a mechanical water meter, characterized in that for preheating so that the circuit board does not freeze by operating the heating sheet in accordance with the detection signal of the temperature sensor. The method of claim 2, A center for preventing shaking by wrapping an external magnetic shield ring of the measuring device so that the center of the measuring device and the center of the driving magnet inside the water meter body are not twisted while the measuring device is placed on the meter cap of the upper portion of the water meter. Instant flow measurement device for a mechanical water meter, characterized in that the retaining ring is provided.

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