KR20210147297A - hybrid type water gauge - Google Patents

Abstract

The present invention relates to a hybrid water meter which can accurately measure tap water flow, conveniently perform metering, and use a device for a period of time. The hybrid water meter comprises: a body unit having an inlet introducing tap water and an outlet discharging tap water on one longitudinal end and another end thereof, and having a flow path formed between the inlet and the outlet; and a measuring unit measuring the flow of tap water flowing along the flow path, and displaying the flow of tap water measured through rotation of a number wheel and gradation needles in second units, single units, ten units, and hundred units. The hybrid water meter further comprises: a transparent cover coupled to the upper end of the measuring unit exposing the gradation needles and the number wheel; and a detector coupled to the transparent cover to generate flow information based on a rotation number of one among the gradation needles and transmit the generated flow information.

Description

Hybrid type water gauge

The present invention relates to a water meter, and more particularly, to a hybrid type water meter that enables accurate measurement of tap water flow rate as well as convenient meter reading and long-term use of the device.

Water supply refers to a facility that sends drinking water, industrial, and fire-fighting water through a pipe.

Therefore, provision of drinking water and industrial water can be facilitated by the water supply.

However, since a huge cost is required to operate the water supply, a fee is charged when using the water supplied through the water supply, that is, tap water.

In this case, it is reasonable that the water rate be charged differently depending on the amount of water used.

For this reason, water meters are being installed in water supply lines at each home and business that use tap water.

In a typical water meter, an inlet for inflow of tap water from the outside to the inside is formed at one end in the longitudinal direction, an outlet for outflow of tap water from the inside to the outside is formed at the other end in the longitudinal direction, and a flow path is formed between the inlet and the outlet. body part; and a metering unit provided to pass through the flow path and measuring the flow rate of tap water from the inlet to the outlet, so that the amount of tap water used can be determined by the metering unit, thereby charging a fee according to the amount of tap water used. have.

On the other hand, conventionally, a mechanical water meter in which the tap water flow rate measured in the improvement unit is displayed through a scale hand and a number wheel (counter) has been mainly used.

Mechanical water meters have the advantage of being able to be manufactured at a relatively low cost, but there is a problem that the meter reading is inconvenient. There was a problem with the hassle.

In order to solve the problem of the above-described mechanical water meter, the use of an electronic water meter is increasing recently.

Since the electronic water meter transmits the flow rate information through the communication unit, the meter reading is simply completed by receiving the flow rate information from the outside, thereby eliminating the hassle of meter reading.

However, the electronic water meter has a problem in that it is difficult to use for a long time due to frequent breakdowns because electronic parts are vulnerable to moisture.

For the above reasons, in the relevant field, attempts have been made to develop a water meter that can accurately measure the tap water flow rate as well as make the meter reading convenient and long-term use of the device, but no satisfactory results have been obtained so far. It is not possible.

Republic of Korea Registered Utility Model Publication No. 20-0437952

The present invention has been proposed to solve the problems of the prior art as described above, and provides a water meter that enables accurate measurement of tap water flow rate as well as convenient meter reading and long-term use of the device but it has a purpose.

In order to achieve the above object, the present invention

a body portion having an inlet through which tap water is introduced and an outlet through which tap water is discharged at one end and the other end in the longitudinal direction, and a flow path is formed between the inlet and the outlet; and a metering unit that measures the flow rate of tap water flowing along the flow path, and displays the flow rate of tap water measured through the rotation of the scale hand and the number wheel in seconds, units, tens, and hundreds. a transparent cover coupled to an upper end of the metering part to which the scale needle and the number wheel are exposed; and a detector coupled to the transparent cover to generate tap water flow rate information based on the number of rotations of any one of the scale hands, and to transmit the generated flow rate information. .

The body has a removable cover that can be opened and closed.

Any one of the scale hands has a magnet.

Any one of the scale hands may be a tens scale hand.

The transparent cover has a groove portion.

The detector includes a rotation detection sensor that measures the number of rotations of any one of the scale hands.

The rotation detection sensor may be a magnetoresistive sensor (MR) sensor.

The rotation sensor is provided as a pair and is disposed to face each other at a distance within the rotation range of any one of the scale hands.

The detector may further include an alarm sensor that generates an alarm signal as the coupling with the transparent cover is released.

The hybrid type water meter according to the present invention includes a detector that generates tap water flow rate information, so that not only can the tap water flow rate be checked through the metering unit, but also the tap water flow rate can be checked through the flow rate information generated by the detector, the tap water flow rate measurement can increase the reliability of

In the hybrid type water meter according to the present invention, since the detector transmits the flow rate information and receives the flow rate information from the outside, the meter reading can be performed simply without visiting a home or business, thereby increasing the convenience of meter reading.

In the hybrid water meter according to the present invention, not only the use of electronic components is minimized, but also the electronic components are mounted in a separate space from the metering unit, so that contact with water is blocked, so component failure due to contact with water can be prevented and its lifespan This can be maintained for a long time.

1 is an exploded perspective view of a hybrid water meter according to the present invention.
Figure 2 is a cross-sectional view for explaining the structure of the hybrid-type water meter according to the present invention.
3 is an exemplary view showing a scale hand provided with a magnet in the hybrid type water meter according to the present invention.
4 is an exemplary view for explaining the measurement of the rotation speed of the scale needle through the detector in the hybrid type water meter according to the present invention.
5 is an exemplary view for explaining the generation of an alarm signal from the alarm sensor in the hybrid type water meter according to the present invention.
6 is an exemplary view for explaining the external meter reading through the hybrid type water meter according to the present invention.

Hereinafter, the present invention will be described in detail based on the accompanying drawings.

As shown in Figures 1 and 2, the hybrid type water meter (A) according to the present invention includes a body portion 10: a metering portion 20: a transparent cover 30; and a detector 40;

In the body portion 10 of the present invention, an inlet 11 through which tap water flows and an outlet 12 through which tap water flows are formed at one end and the other end in the longitudinal direction, and a flow path between the inlet 11 and the outlet 12 is formed. (13) is formed.

Therefore, the tap water introduced through the inlet 11 flows along the flow path 13 and then flows out through the outlet 12 .

At this time, the body portion 10 is provided with a removable cover 14 that can be opened and closed by separating the cover 14 from the body portion 10 so that the upper end of the metering portion 20 is exposed, and a transparent cover is placed on the upper portion of the metering portion 20 . (30) may be seated, and by coupling the cover 14 to the body portion 10 after the transparent cover 30 is seated, the transparent cover 30 seated on the metering unit 20 may be fixed.

Here, since the coupling of the body portion 10 and the cover 14 is made by spiral engagement, the separation and coupling of the cover 14 is easy.

On the other hand, the body portion 10 is the same as the conventional mechanical water meter body portion 10, further detailed description of the body portion 10 will be omitted.

The metering unit 20 of the present invention measures the flow rate of tap water flowing along the flow path 13, but measures the rotation of the scale hand 21 and the number wheel 22 in units of seconds, units, tens and hundreds. Displays the flow rate of tap water measured through

Therefore, it is easy to check the amount of tap water used by the scale needle 21 and the number wheel 22 of the metering unit 20 .

At this time, any one of the scale hands 21 is provided with a magnet 23 as shown in FIG.

Therefore, when the scale hand 21 is rotated, the rotation detection sensor 41 described below measures the rotation speed of the magnet 23 to determine the rotation speed of the corresponding scale hand 21, thereby calculating the tap water flow rate. This can be done.

Here, the scale needle 21 provided with the magnet 23 may be a tens scale needle 21 .

When the magnet 23 is coupled to the step scale needle 21, the error range of the tap water flow rate measurement can be reduced, but as the rotation speed is relatively fast, the rotational speed of the magnet 23 through the rotation sensor 41 is measured. error may occur, and when the magnet 23 is coupled to the hundred scale hand 21, the rotation speed of the magnet 23 through the rotation detection sensor 41 may be smoothly measured as the rotation speed is relatively slow, Since the error range of the tap water flow rate measurement is relatively large, the magnet 23 is preferably provided on the tens scale hand 21 .

On the other hand, the metering unit 20 is the same as the metering unit of a conventional mechanical water meter, such as including a blade (not shown) that rotates according to the flow of tap water in the flow path 13. Further detailed description of the metering unit is omitted.

The transparent cover 30 of the present invention is coupled to the top of the metering unit 20 to which the scale needle 21 and the number wheel 22 are exposed.

Accordingly, by coupling the detector 40 to the transparent cover 30 , the detector 40 is positioned above the scale hand 21 and the number wheel 22 , more specifically, directly above the scale hand 21 .

At this time, the transparent cover 30 is provided with a groove (31).

Therefore, when the detector 40 is coupled to the transparent cover 30, by inserting a part of the detector 40 into the groove part 31, not only the coupling of the transparent cover 30 and the detector 40 is strengthened, but also the fixing of the detector 40 position becomes constant.

Here, since the groove part 31 is located directly above the scale needle 21 , the detector 40 coupled by the groove part 31 is also located directly above the scale needle 21 , so through the transparent cover 30 . The number wheel 22 can be exposed, so that the tap water flow rate can be checked through the number wheel 22 .

The detector 40 of the present invention is coupled to the transparent cover 30 to generate tap water flow rate information based on the number of rotations of any one of the scale hands 21 , and transmits the generated flow rate information.

Therefore, the tap water usage amount is determined by checking the tap water flow rate information generated in the detector 40 .

At this time, the detector 40 includes a rotation detection sensor 41 for measuring the number of rotations of any one of the scale hands 21 , and thus the number of rotations of any one of the scale hands 21 measured through the rotation detection sensor 41 . based on the generation of tap water flow rate information.

For example, if the number of revolutions of the tens scale hand 21 measured by the rotation sensor 41 is 62 times, the flow rate of tap water flowing through the flow path 13 is 620 liters.

Here, since the rotation sensor 41 is a magnetoresistive sensor (MR) sensor, the number of rotations of the scale needle 21 provided with the magnet 23 among the scale hands 21 is measured.

In addition, the rotation detection sensor 41 is provided as a pair as shown in FIG. 4 and is disposed to face each other at an interval within the rotation range of any one of the scale hands 21, so that the resolution is improved as well as the error rate is minimized. can

When the rotation detection sensor 41 is provided as a pair, two counters are made in one rotation of any one of the scale hands 21 , so for example, the rotation of the decimal scale hand 21 measured through the rotation detection sensor 41 . If the number is 62, the flow rate of tap water flowing through the flow path 13 is 310 liters.

In addition, the detector 40, as shown in FIG. 5, operates as the coupling with the transparent cover 30 is released and an alarm sensor 42 for generating an alarm signal; may further include.

Therefore, the abnormal situation of the detector 40, that is, the departure from the transparent cover 30, can be recognized immediately by the alarm signal generated by the operation of the alarm sensor 42.

At this time, the alarm sensor 42 may have any structure and method in general as long as it can generate an alarm signal as the coupling between the transparent cover 30 and the detector 40 is released, and an example of the transparent cover It may be a touch sensor that is in contact with (30).

The touch sensor in contact with the transparent cover 30 is released from contact with the transparent cover 30 due to the separation of the detector 40 from the transparent cover 30 and generates an alarm signal between the transparent cover 30 and the detector 40 . Uncoupling can be recognized.

On the other hand, in the detector 40, the rotation sensor 41 is mounted on the substrate 40a, the substrate 40a is accommodated in the case (40b).

At this time, a battery (not shown) and a communication module (not shown) are mounted on the substrate 40a, so that power is supplied by the battery, and the tap water flow rate information is transmitted by the communication module.

On the other hand, it goes without saying that the case 40b is airtight, preventing water from entering the inside.

The operation of the hybrid type water meter (A) according to the present invention will be described in detail as follows.

In the present invention, the body portion 10 has an inlet 11 through which tap water flows and an outlet 12 through which tap water flows at one end and the other end in the longitudinal direction, and a flow path between the inlet 11 and the outlet 12. As the bar 13 is formed, tap water introduced through the inlet 11 flows along the flow path 13 and then flows out through the outlet 12 .

And the metering unit 20 of the present invention is provided in the flow path 13, and the flow rate of tap water flowing along the flow path 13 is measured, and the measured flow rate of tap water is measured in seconds, units, or tens. and through the scale hand 21 and the number wheel 22 in hundred units.

Therefore, by checking the flow rate of tap water displayed through the scale needle 21 and the number wheel 22 of the metering unit, the amount of tap water used is determined.

However, since the flow rate of tap water is only displayed through the scale needle 21 and the number wheel 22 of the metering unit, a visit to the meter reading center is inevitably required for meter reading.

However, the present invention includes a transparent cover 30 coupled to the upper end of the metering unit 20 and a detector 40 coupled to the transparent cover 30, and the detector 40 is one of the scale hands 21 . Generates tap water flow rate information based on the number of rotations, and transmits the generated flow rate information, as shown in FIG. By receiving the flow rate information from the integrated control system 400, the meter reading can be performed simply without a visit to the meter reading person.

At this time, as the rotation speed measurement of any one of the scale hands 21 is inaccurate, the reliability of the flow rate information is inevitably deteriorated.

However, in the present invention, any one of the scale hands 21, for example, the tens scale hand 21 is provided with a magnet 23, and the detector 40 is provided with a rotation detection sensor 41, more specifically an MR sensor. As a result, as the rotation speed of the magnet 23 is measured through the rotation sensor 41, the rotation speed of any one of the scale hands 21 is accurately measured, thereby increasing the reliability of the flow rate information.

In addition, since the rotation detection sensor 41 of the present invention is provided as a pair, the resolution is improved as well as the error rate is minimized, so that the rotation number of any one of the scale hands 21 is more accurately measured. Reliability can be further increased.

However, if the detector 40 deviates from the original position, it may be impossible to generate the flow rate information.

However, in the present invention, since the groove part 31 is provided on the transparent cover 30 coupled to the upper end of the metering part 20 , by inserting a part of the detector 40 into the groove part 31 , the coupling of the detector 40 is reduced. Since it is stably maintained, the flow rate information generation through the detector 40 can be continuously and smoothly.

In addition, the detector 40 further includes an alarm sensor 42 that generates an alarm signal as the coupling with the transparent cover 30 is released; ), since it can be recognized immediately that the detector 40 is in an abnormal situation, a response can be made quickly, so that the flow rate information generation through the detector 40 can be smooth.

Since the present invention as described above is not limited to the above-described embodiments, it can be changed within the scope that does not depart from the gist of the present invention as claimed in the claims, and such changes are the present invention defined by the following claims. fall within the protection scope of the invention.

10: body part 11: inlet port
12: outlet 13: euro
14: cover 20: weighing part
21: scale hand 22: number wheel
23: magnet 30: transparent cover
31: groove 40: detector
40a: substrate 40b: case
41: rotation detection sensor 42: alarm sensor
100: remote meter reading instruction unit 200: data repeater
300: mobile communication base station 400: integrated control system
A : Water meter

Claims (9)

a body portion having an inlet through which tap water is introduced and an outlet through which tap water is discharged is formed at one end and the other end in the longitudinal direction, and a flow path is formed between the inlet and the outlet; and
A metering unit that measures the flow rate of tap water flowing along the flow path, and displays the flow rate of tap water measured through the rotation of a scale needle in seconds, units, ten units, and hundred units, and a number wheel;
a transparent cover coupled to an upper end of the metering part to which the scale needle and the number wheel are exposed; and
Hybrid type water meter further comprising; a detector coupled to the transparent cover to generate tap water flow rate information based on the number of rotations of any one of the scale hands, and to transmit the generated flow rate information. According to claim 1,
The body is a hybrid type water meter, characterized in that provided with a removable cover that can be opened. According to claim 1,
Any one of the scale hands is a hybrid type water meter, characterized in that it has a magnet. 4. The method of claim 3,
Any one of the scale hands is a hybrid type water meter, characterized in that the ten scale hand. According to claim 1,
The transparent cover is a hybrid type water meter, characterized in that it has a groove portion. According to claim 1,
The detector is a hybrid water meter, characterized in that it comprises a rotation detection sensor for measuring the number of rotations of any one of the scale hands. 7. The method of claim 6,
The rotation sensor is a hybrid type water meter, characterized in that the MR (magnetoresistive sensor) sensor. 7. The method of claim 6,
The rotation detection sensor is provided as a pair and is a hybrid type water meter, characterized in that it is disposed to face each other at an interval within the rotation range of any one of the scale hands. According to claim 1,
The detector may further include an alarm sensor that generates an alarm signal when the coupling with the transparent cover is released.

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