KR102275646B1 - Gas Meter - Google Patents

Abstract

The present invention relates to a gas meter, and according to an embodiment of the present invention, when the rotational speed of the rotary on/off valve increases while the rotational speed of the rotation guide does not increase, the control unit operates the gas shutoff valve to prevent gas from being used. By blocking the flow of gas, there is an effect that can accurately measure the amount of gas used.

Description

Gas Meter {Gas Meter}

The present invention relates to a gas meter, and more particularly, to a gas meter that blocks the flow of gas so that gas cannot be used when the rotation guide of the counter does not rotate in a state in which gas is supplied.

In general, a gas meter is a device that integrates and displays the amount of gas supplied according to the flow of gas passing through the inside of the body.

This gas meter is composed of an upper case and a lower case, the upper case is provided with a counter that measures and displays the volume of gas passing through, and the lower case is equipped with a pressure difference between the pressure of the gas flowing into and the gas discharged. A diaphragm for performing a reciprocating motion back and forth is provided.

In addition, first and second links are installed in the upper case that rotate about the respective support shafts as the diaphragm performs reciprocating motion back and forth, and the gas flowing into or discharged from the diaphragm while rotating by the first and second links is installed. A rotary on/off valve to control the flow is installed.

At this time, the rotary on/off valve rotates the driving gear while rotating by the first and second links, and the driving gear rotates the rotation guide of the counter unit through a plurality of intermediate gears and the relay unit.

That is, the rotary on/off valve rotates the driving gear while rotating by the first and second links, the driving gear rotates the movable gear through a plurality of intermediate gears and the relay unit, and the movable gear meshes with the operating gear to the frame of the counter part By rotating the rotation guides sequentially arranged inside, the amount of gas used is displayed in total.

However, in the conventional gas meter, when there is a gap between the plurality of gears disposed between the driving gear and the actuating gear, and the gap is widened, there is a problem in that the gas is supplied in a state in which the rotation guides are not rotated.

Republic of Korea Public Utility Model No. 20-2012-0002389 (published on April 5, 2012)

Accordingly, the present invention has been devised in the background described above, and when the number of rotations of the rotary on/off valve increases while the number of rotations of the rotation guide does not increase, the control unit operates the gas shutoff valve to block the flow of gas so that the gas cannot be used. The purpose of the present invention is to provide a gas meter that can accurately measure the amount of gas used.

In addition, if the rotation speed of the rotary on/off valve increases while the rotation speed of the rotation guide does not increase, the control unit operates the gas shutoff valve to block the flow of gas to prevent the use of gas, and at the same time, through the communication module, the server of the central management room An object of the present invention is to provide a gas meter that can quickly detect a malfunction even if the inspector does not directly visit the house by transmitting a malfunction signal.

In order to achieve this object, an embodiment of the present invention includes an upper case in which an inlet and an outlet are formed; a lower case coupled to a lower portion of the upper case and having a diaphragm mounted therein; a rotary opening/closing valve for controlling the flow of gas flowing in or out of the inlet or outlet in conjunction with the diaphragm according to the flow of gas flowing from the inlet to the outlet; a counter unit for integrating and displaying the amount of gas used through a plurality of rotation guides rotating in association with the rotation of the rotary on/off valve; a first rotation detection unit for detecting the rotation of the rotation guide and transmitting a signal in the form of a pulse; a second rotation detection unit for detecting the rotation of the rotary opening/closing valve and transmitting a pulse-type signal; and counting the number of rotations of the rotation guide according to the signal of the first rotation detection unit, and counting the number of rotations of the rotary opening/closing valve according to the signal of the second rotation detection unit, in a state in which the rotation number of the rotation guide does not increase When it is determined that the rotational speed of the rotary on/off valve increases, a control unit for controlling the flow of gas so as not to use the gas; provides a gas meter comprising a.

In addition, the present invention further includes a gas shutoff valve installed at the inlet or the outlet to open and close the inlet or the outlet, wherein the control unit rotates the rotary on/off valve in a state where the number of revolutions of the rotating guide does not increase. When it is determined that the number increases, the gas shutoff valve is operated to control the flow of gas so as not to use the gas.

In addition, in the present invention, the first rotation detecting unit, the magnet installed on the rotation guide rotates along the circumference of the rotation guide together with the rotation guide; and a reed switch installed in the upper case so that one pulse is generated when the magnet rotating along the circumference of the rotation guide approaches.

In addition, in the present invention, the second rotation detection unit, a magnet installed on the rotary on/off valve and rotating along the circumference of the rotary on/off valve together with the rotary on/off valve; and a reed switch installed in the upper case so that one pulse is generated when the magnet rotating along the circumference of the rotary on/off valve approaches.

In addition, the present invention provides a first link and a second link that rotates about each support shaft as the diaphragm performs a reciprocating motion back and forth; a first connection link connecting the first link and the rotary opening/closing valve; and a second connection link connecting the second link and the rotary opening/closing valve, wherein the second rotation detecting unit includes any one of the first link, the second link, the first connection link, and the second connection link. a magnet installed on one upper side to rotate or reciprocate; and one of the upper magnets of the first link, the second link, the first connection link and the second connection link is installed in the upper case so that one pulse is generated when the rotating or reciprocating magnet approaches. It is characterized in that it includes; a reed switch installed at a position where the

In addition, in the present invention, when it is determined that the number of revolutions of the rotary on/off valve increases while the number of revolutions of the rotating guide does not increase, the control unit displays information indicating a malfunctioning state as a preset character or light through the display unit. characterized in that

In addition, in the present invention, when it is determined that the rotation speed of the rotary on/off valve increases while the rotation speed of the rotation guide does not increase, the control unit outputs information indicating the malfunctioning state as a sound through the notification unit. .

In addition, in the present invention, when it is determined that the rotational speed of the rotary on/off valve increases while the rotational speed of the rotation guide does not increase, the control unit transmits a malfunction to the server of the central management office through the communication module. do.

According to one embodiment of the present invention, when the rotational speed of the rotary on/off valve increases while the rotational speed of the rotation guide does not increase, the control unit operates the gas shutoff valve to block the flow of gas so as not to use the gas, It has the effect of accurately measuring usage.

In addition, if the rotation speed of the rotary on/off valve increases while the rotation speed of the rotation guide does not increase, the control unit operates the gas shutoff valve to block the flow of gas to prevent the use of gas, and at the same time, through the communication module, the server of the central management room By transmitting a malfunction signal to the stylus, there is an effect that a malfunction can be quickly identified without the inspector directly visiting the house.

1 is a perspective view showing a gas meter according to an embodiment of the present invention;
2 is a perspective view showing an open state of the lower cover of the gas meter according to an embodiment of the present invention;
3 is a plan view showing an open state of the upper case of the gas meter according to an embodiment of the present invention;
4 is a plan view showing an operating state of a supply module of a gas meter according to an embodiment of the present invention;
5 is a perspective view showing an open state of the upper case of the gas meter according to an embodiment of the present invention;
6 is a perspective view showing an open state of the upper cover of the gas meter according to an embodiment of the present invention;
7 is an exploded perspective view showing a counter part of a gas meter according to an embodiment of the present invention;
8 is a front cross-sectional view showing a part of a gas meter according to an embodiment of the present invention;
9 is a block diagram schematically showing a gas meter according to an embodiment of the present invention.

Hereinafter, some embodiments of the present invention will be described in detail with reference to exemplary drawings. In adding reference numerals to the components of each drawing, it should be noted that the same components are given the same reference numerals as much as possible even though they are indicated on different drawings. In addition, in describing the present invention, if it is determined that a detailed description of a related known configuration or function may obscure the gist of the present invention, the detailed description thereof will be omitted.

In addition, in describing the components of the present invention, terms such as first, second, A, B, (a), (b), etc. may be used. These terms are only for distinguishing the elements from other elements, and the essence, order, or order of the elements are not limited by the terms. When a component is described as being “connected”, “coupled” or “connected” to another component, the component may be directly connected to or connected to the other component, but another component may exist between each component. It should be understood that elements may be “connected,” “coupled,” or “connected.”

1 is a perspective view showing a gas meter according to an embodiment of the present invention, FIG. 2 is a perspective view showing a state in which the lower cover of the gas meter is opened according to an embodiment of the present invention, and FIG. 3 is an embodiment of the present invention A plan view showing an open state of the upper case of the gas meter according to FIG. 4 is a plan view showing an operating state of the supply module of the gas meter according to an embodiment of the present invention, FIG. 5 is a gas according to an embodiment of the present invention A perspective view showing an open state of the upper case of the meter, FIG. 6 is a perspective view showing an open state of the upper cover of the gas meter according to an embodiment of the present invention, and FIG. 7 is a perspective view of the gas meter according to an embodiment of the present invention An exploded perspective view showing a counter, FIG. 8 is a front sectional view showing a part of a gas meter according to an embodiment of the present invention, and FIG. 9 is a block diagram schematically showing a gas meter according to an embodiment of the present invention.

As shown in these drawings, the gas meter according to an embodiment of the present invention includes an upper case 12 in which an inlet 16 and an outlet 18 are formed; The lower case 10 is coupled to the lower portion of the upper case 12, the diaphragm is mounted therein; a rotary opening/closing valve 110 for controlling the flow of gas flowing in or out by interlocking with the diaphragm according to the flow of gas flowing from the inlet 16 to the outlet 18; a counter unit 170 for integrating and displaying the amount of gas used through a plurality of rotation guides 174 that rotate in conjunction with the rotation of the rotary on/off valve 110; a first rotation detection unit 210 for detecting the rotation of the rotation guide 174 and transmitting a signal in the form of a pulse; a second rotation detection unit 220 for detecting the rotation of the rotary on/off valve 110 and transmitting a pulse-type signal; and counting the number of rotations of the rotation guide 174 according to the signal of the first rotation detection unit 210, and counting the number of rotations of the rotary opening/closing valve 110 according to the signal of the second rotation detection unit 220 to the rotation guide ( When it is determined that the rotational speed of the rotary on/off valve 110 increases while the rotational speed of the 174) does not increase, the control unit 230 for controlling the flow of gas so as not to use the gas; includes.

As is well known, the gas meter is a device that integrates and displays the amount of gas supplied according to the flow of gas passing through the interior of the body, and includes an upper case 12 having an inlet 16 and an outlet 18 formed therein; , is composed of a lower case 10 coupled to the lower portion of the upper case 12, and the upper case 12 has a counter unit 170 that measures and displays the volume of gas passing through, and a counter unit that surrounds the counter unit 170. A cover 14 including an upper cover 14a and a lower cover 14b surrounding the control module 200 is provided, and the lower case 10 is provided with a pressure difference between the pressure of the gas introduced into the interior and the gas discharged. A diaphragm for performing a reciprocating motion back and forth is provided.

And, the upper case 12 is provided with first and second links 20a and 20b that rotate about the respective support shafts as the diaphragm reciprocates back and forth, and the first and second links 20a and 20b ), a rotary on/off valve 110 that controls the flow of gas flowing into or out of the diaphragm is installed, and the rotational force of the rotary on/off valve 110 is transmitted to the rotation guide 174 of the counter unit 170. A driving unit 100 for rotating is installed.

The driving unit 100 includes a driving gear 120 , a first intermediate gear 130 , a relay unit 140 , a second intermediate gear 150 , and a movable gear 160 .

Accordingly, the rotary on/off valve 110 rotates the driving gear 120 while rotating by the first and second links 20a and 20b, and the driving gear 120 includes a plurality of intermediate gears and the relay unit 140. The rotation guide 174 of the counter 170 is rotated through the .

That is, the rotary on/off valve 110 rotates the driving gear 120 while rotating by the first and second links 20a and 20b, and the driving gear 120 rotates the first intermediate gear 130, The first intermediate gear 130 rotates the second intermediate gear 150 through the relay unit 140 , the second intermediate gear 150 rotates the movable gear 160 , and the movable gear 160 operates In engagement with the gear 172, the rotation guides 174 sequentially arranged in the frame of the counter 170 are rotated to display the total amount of gas used.

The rotary on/off valve 110 controls the flow of gas flowing in or out by interlocking with the diaphragm according to the flow of gas flowing from the inlet 16 to the outlet 18, and the counter unit 170 is the rotary on/off valve 110 ), the amount of gas used is integrated and displayed through a plurality of rotation guides 174 that rotate in conjunction with the rotation.

The first rotation detection unit 210 detects the rotation of the rotation guide 174 and transmits a signal in the form of a pulse, is installed on the rotation guide 174, the circumference of the rotation guide 174 together with the rotation guide 174 a magnet that rotates along the 214; and a reed switch 212 installed in the upper case 12 so that one pulse is generated at the moment the magnet rotating along the circumference of the rotation guide 174 approaches.

The reed switch 212 is a thin plate-shaped metal piece with an electrical contact attached to it is enclosed in an inert glass tube, and when the magnet 214 is approached, the movable contact contacts the fixed contact and one pulse is generated.

Accordingly, the first rotation detection unit 210 is installed on the rotation guide 174, the moment the magnet 214 that rotates along the circumference of the rotation guide 174 together with the rotation guide 174 approaches the reed switch 212 ) generates one pulse and transmits a pulse-shaped signal to the control unit 230 .

At this time, the reed switch 212 is spaced apart from the rotation guide 174 at a predetermined interval in the axial direction of the rotation guide 174 so that one pulse is generated when the magnet rotating along the circumference of the rotation guide 174 approaches. It may be installed on the upper case 12 or installed on the substrate to be spaced apart from the rotation guide 174 in the radial direction of the rotation guide 174 at a predetermined interval.

The second rotation detection unit 220 detects the rotation of the rotary on/off valve 110 and transmits a pulse-type signal, which is installed in the rotary on/off valve 110 and together with the rotary on/off valve 110 ( a magnet 224 rotating along the circumference of 110; and a reed switch 222 installed in the upper case 12 so that one pulse is generated at the moment the magnet 224 rotating along the circumference of the rotary on/off valve 110 approaches.

Accordingly, the second rotation detection unit 220 is installed in the rotary on/off valve 110 and the magnet 224 rotating along the circumference of the rotary on/off valve 110 together with the rotary on/off valve 110 is brought close to the instantaneous lead. The switch 222 generates one pulse and transmits a pulse-shaped signal to the controller 230 .

The control unit 230 counts the number of rotations of the rotation guide 174 according to the signal of the first rotation detection unit 210 , and the number of rotations of the rotary on/off valve 110 according to the signal of the second rotation detection unit 220 . When it is determined that the number of rotations of the rotary on/off valve 110 increases while the number of rotations of the rotation guide 174 does not increase by counting, the flow of gas is controlled to prevent the use of gas.

That is, the control unit 230 counts the number of rotations of the rotation guide 174 according to the signal of the first rotation detection unit 210 to measure the amount of gas used as well as the signal from the second rotation detection unit 220 . Accordingly, the amount of gas used may be measured by counting the number of revolutions of the rotary on/off valve 110 .

In more detail, when the number of rotations of the rotary on/off valve 110 increases while the number of rotations of the rotation guide 174 does not increase, the control unit 230 calculates the number of rotations of the rotary on/off valve 110 after the malfunctioning state. The amount of gas used is transmitted to the server of the central management office through the communication module 240 .

Here, the amount of gas used is calculated by the number of revolutions of the periodic volume * the rotary on/off valve 110 .

At this time, the first rotation detection unit 210 and the second rotation detection unit 220 are disposed adjacent to the reed switches 212 and 222 and include a magnetic force detection unit 270 for detecting an external magnetic field attack. .

The magnetic force sensing unit 270 transmits a magnetic force sensing signal to the control unit 230 when a magnetic field is attacked on the reed switches 212 and 222 using a magnet from the outside.

Then, when the magnetic force detection signal is transmitted, the control unit 230 displays information indicating the magnetic field attack state as a preset character or light through the display unit 250 or outputs it as a sound through the notification unit 260, and the magnetic field The attack occurrence information is transmitted to the server of the central management office through the communication module 240 .

In this case, the control unit 230 accumulates and stores the history of occurrence information about the magnetic field attack during the magnetic field attack.

Accordingly, the gas meter of the present invention can display the stored generation information history through the display unit 250 or output it through the notification unit 260 , and transmit it to the server of the central management office through the communication module 240 . do.

The gas shutoff valve 300 is installed at the inlet 16 or the outlet 18 to open and close the inlet 16 or the outlet 18 , and blocks the flow of gas by a control signal from the controller 230 .

Accordingly, in the present invention, the control unit 230 compares the counted number of revolutions of the first rotation detection unit 210 and the second rotation detection unit 220 and rotates in a state where the number of rotations of the rotation guide 174 does not increase. When the rotational speed of the on/off valve 110 increases, the control unit 230 transmits a control signal to the gas shutoff valve 300, and the gas shutoff valve 300 receiving the control signal prevents the gas from being used. will block

In addition, the present invention includes a display unit 250 for displaying predetermined information, a notification unit 260 for outputting predetermined information, and a communication module 240 for exchanging predetermined information with the server of the central management office.

The display unit 250 displays the gas temperature, gas pressure, usage amount, etc. according to the gas supply, and when a malfunction occurs, information indicating the malfunction state is displayed according to a control signal of the control unit 230 .

Accordingly, when it is determined that the number of rotations of the rotary on/off valve 110 increases while the number of rotations of the rotation guide 174 does not increase, the control unit 230 displays information indicating the malfunctioning state through the display unit with a preset character or light. will be displayed as

When a malfunction occurs, the notification unit 260 outputs information indicating a malfunctioning state according to a control signal from the control unit 230 .

Accordingly, when it is determined that the rotation speed of the rotary on/off valve 110 increases while the rotation speed of the rotation guide 174 does not increase, the control unit 230 outputs information indicating a malfunctioning state as a sound.

The communication module 240 means a module capable of communicating with the server of the central management office by wire or wireless, and can be used without limitation as long as it can perform these functions.

Therefore, when it is determined that the number of rotations of the rotary on/off valve 110 increases while the rotation speed of the rotation guide 174 does not increase, the control unit 230 centrally transmits information on the malfunctioning state through the communication module 240 . It is sent to the server of the management office.

Subsequently, the present invention provides a first link (20a) and a second link (20b) that rotates about each support shaft as the diaphragm performs a reciprocating motion back and forth; a first connection link (22a) connecting the first link (20a) and the rotary on/off valve (110); and a second connection link (22b) connecting the second link (20b) and the rotary on/off valve (110).

The rotary opening/closing valve 110 is connected through the first and second links 20a and 20b and the first and second connecting links 22b that rotate about the respective support shafts as the diaphragm performs reciprocating motion back and forth. While rotating, the driving gear 120 is rotated.

At this time, the second rotation detection unit 220 is installed in any one of the first link 20a, the second link 20b, the first connection link 22a, and the second connection link 22b to the rotary opening/closing valve ( 110) can sense the rotation and transmit a signal in the form of a pulse.

That is, the magnet 224 of the second rotation detecting unit 220 is installed on the upper surface of the first link 20a, and the reed switch 222 is a magnet corresponding to the magnet 224 of the first link 20a. (224) is installed to be spaced apart at a predetermined interval on the side or upper portion.

In another embodiment of the present invention, the second rotation detecting unit 220 is any one of the first link 20a, the second link 20b, the first connection link 22a and the second connection link 22b. a magnet 224 installed on one upper side to rotate or reciprocate; And the first link (20a), the second link (20b), the first connecting link (22a) and the second connecting link (22b) installed on the upper surface of any one of the rotating or reciprocating magnet 224 is close Any one of the magnets 224 of the first link 20a, the second link 20b, the first connection link 22a and the second connection link 22b of the upper case 12 so that one pulse is generated at the moment ) and a reed switch 222 installed at a position corresponding to it; includes.

For example, the magnet 224 of the second rotation detecting unit 220 is installed on the upper side of the first link 20a, and the reed switch 222 is the magnet 224 of the first link 20a and corresponding to the magnet 224 of the first link 20a. can be installed on site.

That is, the magnet 224 of the second rotation detecting unit 220 is installed on the upper surface of the first link 20a to rotate or reciprocate, and the reed switch 222 is the upper surface of the first link 20a. It is installed in a position corresponding to the magnet 224 so that one pulse is generated at the moment when the magnet 224, which is installed in a rotating or reciprocating motion, approaches, and a rotary opening/closing valve 110 interlocking with the first link 20a When rotating, the second rotation detecting unit 220 transmits a pulse-shaped signal to the control unit 230 .

In addition, the magnet 224 of the second rotation detection unit 220 is installed on the upper side of the second link 20b, and the reed switch 222 is located at a position corresponding to the magnet 224 of the second link 20b. can be installed on

That is, the magnet 224 of the second rotation detecting unit 220 is installed on the upper surface of the second link 20b to rotate or reciprocate, and the reed switch 222 is the upper surface of the second link 20b. It is installed in a position corresponding to the magnet 224 so that one pulse is generated at the moment when the magnet 224, which is installed in a rotating or reciprocating motion, approaches, and a rotary on/off valve 110 interlocking with the second link 20b When rotating, the second rotation detecting unit 220 transmits a pulse-shaped signal to the control unit 230 .

In addition, the magnet 224 of the second rotation detection unit 220 is installed on the upper surface of the first connection link 22a, and the reed switch 222 corresponds to the magnet 224 of the first connection link 22a. It can be installed in any location

That is, the magnet 224 of the second rotation detection unit 220 is installed on the upper surface of the first connection link 22a to rotate or reciprocate, and the reed switch 222 is the first connection link 22a. It is installed on the upper side and is installed at a position corresponding to the magnet 224 so that one pulse is generated when the rotating or reciprocating magnet 224 is approached, and a rotary opening/closing valve interlocking with the first connection link 22a ( When 110 is rotated, the second rotation detecting unit 220 transmits a pulse-shaped signal to the control unit 230 .

In addition, the magnet 224 of the second rotation detection unit 220 is installed on the upper side of the second connection link 22b, and the reed switch 222 corresponds to the magnet 224 of the second connection link 22b. It can be installed in any location

That is, the magnet 224 of the second rotation detection unit 220 is installed on the upper surface of the second connection link 22b to rotate or reciprocate, and the reed switch 222 is the second connection link 22b. It is installed on the upper side and is installed at a position corresponding to the magnet 224 so that one pulse is generated as soon as the rotating or reciprocating magnet 224 is approached, and a rotary opening/closing valve interlocking with the second connection link 22b ( When 110 is rotated, the second rotation detecting unit 220 transmits a pulse-shaped signal to the control unit 230 .

Accordingly, in the present invention, the pulse of the first rotation detection unit 210 for detecting the rotation of the rotation guide 174 by the control unit 230 and the second rotation detection unit 220 for sensing the rotation of the rotary on/off valve 110 The number of rotations of the rotary guide 174 and the rotary on/off valve 110 is counted and compared according to the signal, and as a result of the comparison, the number of rotations of the rotary on/off valve 110 is increased while the number of rotations of the rotary guide 174 does not increase. When it is determined that the gas shutoff valve 300 is operated, the flow of gas is blocked so that the gas cannot be used.

In other words, the control unit 230 according to the pulse signal of the first rotation detection unit 210 of the rotation guide 174 and the second rotation detection unit 220 of the rotary on/off valve 110, the rotation guide 174 and the rotation type When it is determined that the number of rotations of the rotary on/off valve 110 increases while the number of rotations of the rotation guide 174 is not increased by comparing the number of rotations of the on/off valve 110, the gas shutoff valve 300 is operated to It blocks the flow of gas so that it cannot be used, and at the same time transmits a malfunction signal to the server of the central management office through the communication module 240 .

As such, the present invention not only can accurately measure the amount of gas used, but also allows the inspector to quickly detect a malfunction without directly visiting the house, and quickly respond to the malfunction.

In the above, even though all the components constituting the embodiment of the present invention are described as being combined or operating in combination, the present invention is not necessarily limited to this embodiment. That is, within the scope of the object of the present invention, all the components may operate by selectively combining one or more.

In addition, terms such as "include", "comprise" or "have" described above mean that the corresponding component may be embedded, unless otherwise specified, so that other components are excluded. Rather, it should be construed as being able to further include other components. All terms, including technical and scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art to which the present invention belongs, unless otherwise defined. Terms commonly used, such as those defined in the dictionary, should be interpreted as being consistent with the meaning of the context of the related art, and are not interpreted in an ideal or excessively formal meaning unless explicitly defined in the present invention.

The above description is merely illustrative of the technical spirit of the present invention, and various modifications and variations will be possible without departing from the essential characteristics of the present invention by those skilled in the art to which the present invention pertains. Therefore, the embodiments disclosed in the present invention are not intended to limit the technical spirit of the present invention, but to explain, and the scope of the technical spirit of the present invention is not limited by these embodiments. The protection scope of the present invention should be construed by the following claims, and all technical ideas within the scope equivalent thereto should be construed as being included in the scope of the present invention.

10: lower case 12: upper case
14: cover 16: inlet
18: outlet 20a: first link
20b: second link 22a: first connection link
22b: second connection link 100: drive unit
110: rotary on/off valve 120: drive gear
130: first intermediate gear 140: relay unit
150: second intermediate gear 160: movable gear
170: counter unit 172: operating gear
174: rotation guide 200: control module
210: first detection unit 220: second detection unit
230: control unit 240: communication module
250: display unit 260: notification unit
270: magnetic force sensing unit 300: gas shutoff valve

Claims (9)

an upper case in which an inlet and an outlet are formed;
a lower case coupled to a lower portion of the upper case and having a diaphragm mounted therein;
a rotary opening/closing valve for controlling the flow of gas flowing in or out of the diaphragm according to the flow of gas flowing from the inlet to the outlet;
a counter unit for integrating and displaying the amount of gas used through a plurality of rotation guides rotating in association with the rotation of the rotary on/off valve;
a first rotation detection unit for detecting the rotation of the rotation guide and transmitting a signal in the form of a pulse;
a second rotation detection unit for detecting the rotation of the rotary opening/closing valve and transmitting a pulse-type signal; and
The number of rotations of the rotation guide is counted according to the signal of the first rotation detection unit, and the number of rotations of the rotary opening/closing valve is counted according to the signal of the second rotation detection unit in a state in which the rotation number of the rotation guide does not increase. When it is determined that the number of rotations of the rotary on/off valve increases, a control unit for controlling the flow of gas so as not to use gas;
includes,
The control unit is
If the rotation speed of the rotary on/off valve increases while the rotation speed of the rotation guide does not increase, the counted number of rotations of the rotary on/off valve after a malfunction is calculated and the amount of gas used is transmitted to the server of the central management office gas meter with
The method of claim 1,
a gas shutoff valve installed at the inlet or the outlet to open and close the inlet or the outlet;
further comprising,
When it is determined that the rotational speed of the rotary on/off valve increases while the rotational speed of the rotation guide does not increase, the control unit operates the gas shutoff valve to control the flow of gas so as not to use the gas. meter.
The method of claim 1,
The first rotation detection unit,
a magnet installed on the rotating guide and rotating along the circumference of the rotating guide together with the rotating guide; and
a reed switch installed in the upper case so that one pulse is generated when the magnet rotating along the circumference of the rotation guide approaches;
A gas meter comprising a.
The method of claim 1,
The second rotation detection unit,
a magnet installed on the rotary on/off valve to rotate along the circumference of the rotary on/off valve together with the rotary on/off valve; and
a reed switch installed in the upper case so that one pulse is generated when the magnet rotating along the circumference of the rotary on/off valve approaches;
A gas meter comprising a.
The method of claim 1,
a first link and a second link that rotates about the respective support shafts as the diaphragm reciprocates back and forth;
a first connection link connecting the first link and the rotary opening/closing valve; and
a second connection link connecting the second link and the rotary opening/closing valve;
further comprising,
The second rotation detection unit,
a magnet installed on an upper surface of any one of the first link, the second link, the first connection link, and the second connection link to rotate or reciprocate; and
A position corresponding to any one of the magnets of the first link, the second link, the first connection link and the second connection link is installed in the upper case so that one pulse is generated as soon as the rotating or reciprocating magnet approaches. Reed switch installed on;
A gas meter comprising a.
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